Display control based on bendable display containing electronic device conformation sequence status

ABSTRACT

A method includes, but is not limited to: obtaining information associated with one or more sequences of two or more conformations of one or more portions of one or more regions of a bendable display containing electronic device and controlling display of one or more portions of the bendable display containing electronic device regarding display of second information in response to the information associated with the one or more sequences of two or more conformations of the one or more portions of the one or more regions of the bendable display containing electronic device. In addition to the foregoing, other related method/system aspects are described in the claims, drawings, and text forming a part of the present disclosure.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is related to and claims the benefit of theearliest available effective filing date(s) from the following listedapplication(s) (the “Related Applications”) (e.g., claims earliestavailable priority dates for other than provisional patent applicationsor claims benefits under 35 USC §119(e) for provisional patentapplications, for any and all parent, grandparent, great-grandparent,etc. applications of the Related Application(s)). All subject matter ofthe Related Applications and of any and all parent, grandparent,great-grandparent, etc. applications of the Related Applications isincorporated herein by reference to the extent such subject matter isnot inconsistent herewith.

RELATED APPLICATIONS

-   -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/231,303, entitled E-PAPER DISPLAY        CONTROL OF CLASSIFIED CONTENT BASED ON E-PAPER CONFORMATION,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 29 Aug. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/284,340, entitled E-PAPER DISPLAY        CONTROL OF CLASSIFIED CONTENT BASED ON E-PAPER CONFORMATION,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 19 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/283,607, entitled E-PAPER DISPLAY        CONTROL OF CLASSIFIED CONTENT BASED ON E-PAPER CONFORMATION,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 11 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/283,608, entitled E-PAPER DISPLAY        CONTROL OF CLASSIFIED CONTENT BASED ON E-PAPER CONFORMATION,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 12 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/284,621, entitled E-PAPER        APPLICATION CONTROL BASED ON CONFORMATION SEQUENCE STATUS,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 22 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/284,709, entitled E-PAPER        APPLICATION CONTROL BASED ON CONFORMATION SEQUENCE STATUS,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 23 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/286,116, entitled E-PAPER        APPLICATION CONTROL BASED ON CONFORMATION SEQUENCE STATUS,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 25 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/286,115, entitled E-PAPER        APPLICATION CONTROL BASED ON CONFORMATION SEQUENCE STATUS,        naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 26 Sep. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/287,383, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 7 Oct. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/287,684, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 9 Oct. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/287,685, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 10 Oct. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/288,010, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 14 Oct. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/291,400, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 7 Nov. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/291,540, entitled E-PAPER DISPLAY        CONTROL BASED ON CONFORMATION SEQUENCE STATUS, naming        ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A. LEVIEN,        ROBERT W. LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as        inventors, filed 10 Nov. 2008, which is currently co-pending, or        is an application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/313,028, entitled E-PAPER        EXTERNAL CONTROL SYSTEM AND METHOD, naming ALEXANDER J. COHEN,        EDWARD K. Y. JUNG, ROYCE A. LEVIEN, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 14 Nov.        2008, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/313,673, entitled E-PAPER        EXTERNAL CONTROL SYSTEM AND METHOD, naming ALEXANDER J. COHEN,        EDWARD K. Y. JUNG, ROYCE A. LEVIEN, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 20 Nov.        2008, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/455,147, entitled DISPLAY CONTROL        OF CLASSIFIED CONTENT BASED ON FLEXIBLE DISPLAY CONTAINING        ELECTRONIC DEVICE CONFORMATION, naming ALEXANDER J. COHEN,        EDWARD K. Y. JUNG, ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W.        LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as inventors,        filed 27 May 2009, which is currently co-pending, or is an        application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/455,307, entitled DISPLAY CONTROL        OF CLASSIFIED CONTENT BASED ON FLEXIBLE DISPLAY CONTAINING        ELECTRONIC DEVICE CONFORMATION, naming ALEXANDER J. COHEN,        EDWARD K. Y. JUNG, ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W.        LORD, MARK A. MALAMUD AND JOHN D. RINALDO, JR. as inventors,        filed 28 May 2009, which is currently co-pending, or is an        application of which a currently co-pending application is        entitled to the benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/455,316, entitled DISPLAY CONTROL        OF CLASSIFIED CONTENT BASED ON FLEXIBLE INTERFACE E-PAPER        CONFORMATION, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG,        ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 29 May        2009, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/455,495, entitled DISPLAY CONTROL        OF CLASSIFIED CONTENT BASED ON FLEXIBLE INTERFACE E-PAPER        CONFORMATION, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG,        ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 1 Jun.        2009, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/456,238, entitled APPLICATION        CONTROL BASED ON FLEXIBLE ELECTRONIC DEVICE CONFORMATION        SEQUENCE STATUS, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG,        ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 11 Jun.        2009, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/456,248, entitled APPLICATION        CONTROL BASED ON FLEXIBLE ELECTRONIC DEVICE CONFORMATION        SEQUENCE STATUS, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG,        ROYCE A. LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A.        MALAMUD AND JOHN D. RINALDO, JR. as inventors, filed 12 Jun.        2009, which is currently co-pending, or is an application of        which a currently co-pending application is entitled to the        benefit of the filing date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/456,432, entitled APPLICATION        CONTROL BASED ON FLEXIBLE INTERFACE CONFORMATION SEQUENCE        STATUS, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A.        LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A. MALAMUD AND        JOHN D. RINALDO, JR. as inventors, filed 15 Jun. 2009, which is        currently co-pending, or is an application of which a currently        co-pending application is entitled to the benefit of the filing        date.    -   For purposes of the USPTO extra-statutory requirements, the        present application constitutes a continuation-in-part of U.S.        patent application Ser. No. 12/456,501, entitled APPLICATION        CONTROL BASED ON FLEXIBLE INTERFACE CONFORMATION SEQUENCE        STATUS, naming ALEXANDER J. COHEN, EDWARD K. Y. JUNG, ROYCE A.        LEVIEN, RICHARD T. LORD, ROBERT W. LORD, MARK A. MALAMUD AND        JOHN D. RINALDO, JR. as inventors, filed 16 Jun. 2009, which is        currently co-pending, or is an application of which a currently        co-pending application is entitled to the benefit of the filing        date.        The United States Patent Office (USPTO) has published a notice        to the effect that the USPTO's computer programs require that        patent applicants reference both a serial number and indicate        whether an application is a continuation or        continuation-in-part. Stephen G. Kunin, Benefit of Prior-Filed        Application, USPTO Official Gazette Mar. 18, 2003, available at        http://www.uspto.gov/web/offices/com/sol/og/2003/week11/patbene.htm.        The present Applicant Entity (hereinafter “Applicant”) has        provided above a specific reference to the application(s) from        which priority is being claimed as recited by statute. Applicant        understands that the statute is unambiguous in its specific        reference language and does not require either a serial number        or any characterization, such as “continuation” or        “continuation-in-part,” for claiming priority to U.S. patent        applications. Notwithstanding the foregoing, Applicant        understands that the USPTO's computer programs have certain data        entry requirements, and hence Applicant is designating the        present application as a continuation-in-part of its parent        applications as set forth above, but expressly points out that        such designations are not to be construed in any way as any type        of commentary and/or admission as to whether or not the present        application contains any new matter in addition to the matter of        its parent application(s).

SUMMARY

A method includes, but is not limited to: obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device and controlling display of one or moreportions of the bendable display containing electronic device regardingdisplay of second information in response to the information associatedwith the one or more sequences of two or more conformations of the oneor more portions of the one or more regions of the bendable displaycontaining electronic device. In addition to the foregoing, other methodaspects are described in the claims, drawings, and text forming a partof the present disclosure.

In one or more various aspects, related systems include but are notlimited to circuitry and/or programming for effecting theherein-referenced method aspects; the circuitry and/or programming maybe virtually any combination of hardware, software, and/or firmwareconfigured to effect the herein-referenced method aspects depending uponthe design choices of the system designer.

A system includes, but is not limited to: circuitry for obtaininginformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of abendable display containing electronic device and circuitry forcontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device. Inaddition to the foregoing, other method aspects are described in theclaims, drawings, and text forming a part of the present disclosure.

A system includes, but is not limited to: means for obtaininginformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of abendable display containing electronic device and means for controllingdisplay of one or more portions of the bendable display containingelectronic device regarding display of second information in response tothe information associated with the one or more sequences of two or moreconformations of the one or more portions of the one or more regions ofthe bendable display containing electronic device. In addition to theforegoing, other method aspects are described in the claims, drawings,and text forming a part of the present disclosure.

The foregoing summary is illustrative only and is not intended to be inany way limiting. In addition to the illustrative aspects, embodiments,and features described above, further aspects, embodiments, and featureswill become apparent by reference to the drawings and the followingdetailed description.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a block diagram of an intra-e-paper assembly shown in anenvironment as optionally associated through information flows withother intra-e-paper assemblies and extra-e-paper assemblies.

FIG. 2 is a block diagram of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing further detail.

FIG. 3 is a block diagram showing detail of an exemplary implementationof a content unit of the exemplary implementation of the intra-e-paperassembly of FIG. 2.

FIG. 4 is a block diagram showing detail of an exemplary implementationof a sensor unit of the exemplary implementation of the intra-e-paperassembly of FIG. 2.

FIG. 5 is a block diagram showing detail of an exemplary implementationof a recognition unit of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 6 is a block diagram showing detail of an exemplary implementationof an application unit of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 7 is a block diagram showing detail of an exemplary implementationof a communication unit of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 8 is a block diagram showing detail of an exemplary implementationof a conformation unit of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 9 is a block diagram showing detail of an exemplary implementationof a display unit of the exemplary implementation of the intra-e-paperassembly of FIG. 2.

FIG. 10 is a block diagram showing detail of an exemplary implementationof a user interface unit of the exemplary implementation of theintra-e-paper assembly of FIG. 2

FIG. 11 is a block diagram showing detail of exemplary implementationsof intra-e-paper modules of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 12 is a block diagram showing detail of exemplary implementationsof intra-e-paper modules of the exemplary implementation of theintra-e-paper assembly of FIG. 2.

FIG. 13 is a block diagram of an exemplary implementation of one of theoptional extra-e-paper assemblies of FIG. 1 showing further detail.

FIG. 14 is a block diagram showing detail of an exemplary implementationof a content unit of the exemplary implementation of the extra-e-paperassembly of FIG. 13.

FIG. 15 is a block diagram showing detail of an exemplary implementationof a sensor unit of the exemplary implementation of the extra-e-paperassembly of FIG. 13.

FIG. 16 is a block diagram showing detail of an exemplary implementationof a recognition unit of the exemplary implementation of theextra-e-paper assembly of FIG. 13.

FIG. 17 is a block diagram showing detail of an exemplary implementationof an application unit of the exemplary implementation of theextra-e-paper assembly of FIG. 13.

FIG. 18 is a block diagram showing detail of an exemplary implementationof a communication unit of the exemplary implementation of theextra-e-paper assembly of FIG. 13.

FIG. 19 is a block diagram showing detail of an exemplary implementationof a user interface unit of the exemplary implementation of theextra-e-paper assembly of FIG. 13.

FIG. 20 is a schematic diagram depicting regions of an exemplaryimplementation of an intra-e-paper assembly.

FIG. 21 is a side elevational sectional view of an exemplaryimplementation of the intra-e-paper assembly of FIG. 1 showing

FIG. 22 is a top plan view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 is a partially folded state.

FIG. 23 is a side elevational view of the exemplary implementation ofthe intra-e-paper assembly of FIG. 22.

FIG. 24 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing selection capability.

FIG. 25 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing association between regions dueto a depicted conformation.

FIG. 25 a is a side elevational view of an exemplary implementation ofthe intra-e-paper assembly of FIG. 1 showing association between regionsdue to a depicted conformation.

FIG. 26 is a series of side elevational views of an exemplaryimplementation of the intra-e-paper assembly of FIG. 1 showing asequence of depicted conformations.

FIG. 27 is a top plan view of exemplary implementations of theintra-e-paper assembly of FIG. 1 showing conformation based uponinterconnection between the exemplary implementations.

FIG. 28 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary draping type ofconformation.

FIG. 28 a is a side elevational view of an exemplary implementation ofthe intra-e-paper assembly of FIG. 1 showing an exemplary draping typeof conformation.

FIG. 29 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary wrapped type ofconformation.

FIG. 29 a is a side elevational view of an exemplary implementation ofthe intra-e-paper assembly of FIG. 1 showing an exemplary wrapped typeof conformation.

FIG. 30 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary type of transientconformation through an exemplary scraping action resultant incurvilinear input.

FIG. 30 a is a side elevational view of an exemplary implementation ofthe intra-e-paper assembly of FIG. 1 showing an exemplary type oftransient conformation through an exemplary scraping action resultant incurvilinear input.

FIG. 31 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary rolled type ofconformation.

FIG. 32 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary hinge status ofthe exemplary implementation in an exemplary folded state.

FIG. 33 is a side elevational view of an exemplary implementation of theintra-e-paper assembly of FIG. 1 showing an exemplary bend radius statusof the exemplary implementation in an exemplary folded state.

FIG. 34 is a high-level flowchart illustrating an operational flow O10representing exemplary operations related to obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device and controlling display of one or moreportions of the bendable display containing electronic device regardingdisplay of second information in response to the information associatedwith the one or more sequences of two or more conformations of the oneor more portions of the one or more regions of the bendable displaycontaining electronic device at least associated with exemplaryimplementations of the intra-e-paper assembly of FIG. 1.

FIG. 35 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 36 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 37 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 38 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 39 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 40 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 41 is a high-level flowchart including an exemplary implementationof operation O11 of FIG. 34.

FIG. 42 is a high-level flowchart including exemplary implementations ofoperation O11 of FIG. 34.

FIG. 43 is a high-level flowchart including an exemplary implementationof operation O12 of FIG. 34.

FIG. 44 is a high-level flowchart including an exemplary implementationof operation O12 of FIG. 34.

FIG. 45 is a high-level flowchart including an exemplary implementationof operation O12 of FIG. 34.

FIG. 46 is a high-level flowchart including an exemplary implementationof operation O12 of FIG. 34.

FIG. 47 illustrates a partial view of a system S100 that includes acomputer program for executing a computer process on a computing device.

DETAILED DESCRIPTION

In the following detailed description, reference is made to theaccompanying drawings, which form a part hereof. In the drawings,similar symbols typically identify similar components, unless contextdictates otherwise. The illustrative embodiments described in thedetailed description, drawings, and claims are not meant to be limiting.Other embodiments may be utilized, and other changes may be made,without departing from the spirit or scope of the subject matterpresented here.

An exemplary environment is depicted in FIG. 1 in which one or moreaspects of various embodiments may be implemented. In the illustratedenvironment, an exemplary system 100 may include at least anintra-e-paper assembly or other bendable display containing electronicdevice (herein “e-paper”) 102 for display communication, storage,manipulation, broadcast, or other use of information, including visual,auditory, or otherwise oriented, based upon conformation of the e-paperand/or classification based upon conformation of the e-paper and/orclassification of the information being considered for display or otheruse.

Some exemplary implementations of the e-paper 102 may utilize variousdisplay aspects related to technology commonly referred to as“electronic paper,” “e-paper,” “electronic ink,” and “e-ink” such asplate type electronics using liquid crystal electronics or organicelectroluminescence electronics. Some exemplary implementations may useone or more thin and/or foldable electronic circuit boards to provide amore paper-like flexibility for the e-paper 102 without need for hingedconnections between portions or regions of the e-paper. Otherimplementations of the e-paper may also have alone or in combinationwith the flexible portions more rigid type portions such as with theplate type electronics in which various portions or regions of thee-paper 102 are coupled together with mechanical connectors such ashinges or micro-hinges or other coupling mechanisms. Some exemplaryimplementations may have one or more batteries mounted thereon tofurnish power for changing displayed content. Some exemplaryimplementations may require power for maintaining the displayed content.Other exemplary implementations may have display aspects with a memoryfunction in lieu of such power requirements.

Some exemplary implementations of the e-paper 102 may utilize displayaspects of microcapsule electrophoretic or twist ball type electronics.An exemplary microcapsule-electrophoretic display unit implementationmay not require power for maintaining the displayed content.

In some exemplary implementations, black (or other colored particles)charged to negative polarity and white (or other colored particles)charged to positive polarity may be contained in transparentmicrocapsules that are positioned between films having a transparentelectrode such as indium tin oxide (ITO). When a voltage is used toapply negative electric charge to a specific portions of microcapsules,the white (or other colored particles) move to a lower microcapsuleportion and the black (or other colored) particles) electrophoreticallymigrate toward an upper microcapsule portion. Consequently, an image ofwhite (or one or more other colors) and black (or one or more othercolors) may be displayed on the exemplary implementation of the e-paper102.

When positive electric charge is applied to an entire surface displaylayer and/or an internal display layer beneath the surface display layerof the e-paper 102, the white particles may move to an upper portion ofa part of the microcapsule. Consequently, the surface becomes white,which may be used to delete an image. Microcapsule-electrophoreticexemplary versions of the e-paper 102 may require power to move thewhite and black particles at the time of rewrite. However, because thewhite and black particles normally stay on the electrode due toelectrostatic adsorption or intermolecular force, power may not berequired to maintain displayed content akin to a memory function.

An exemplary twist-ball (Gyricon bead) implementation of the e-paper 102may use balls having a spherical diameter of 10 micrometers to 100micrometers, which may be painted, respectively, in two colors (forexample, white and black) for each hemisphere, have charged states (plusand minus) corresponding to the respective colors, and may be buried ina transparent insulating sheet put between a pair of electrodes. Ballspainted in two colors may be supported in an insulating liquid such assilicon oil in a cavity slightly larger than the ball diameter so thatapplied voltage rotates the charged ball to display one of the paintedcolors. Since the rotated ball may be positionally fixed byelectrostatic adsorption, if the applied voltage is removed, displayedcontent may remain without continuing to apply power. Other aspects ofapproaches to e-paper displays may be used by other implementations ofthe e-paper 102. For instance, a bendable A4 sized display panel by LGPhilips of South Korea reportedly measures 35.9-centimeters diagonally,is 0.3-millimeter thick, and may display up to 4,096 colors whilemaintaining the energy efficient qualities that inevitably come withusing energy only when the image changes. Supporting e-paper displayaspects may be further found in various technical documents such asInternational PCT Application Publication Nos. WO2007/111382;WO2006/040725; U.S. Published Patent Application Nos. 2007/0242033;2007/0247422; 2008/0129647; and U.S. Pat. Nos. 6,577,496; 7,195,170.

Exemplary implementations of the system 100 may also include otherinstances of the e-paper 102, which may exchange information betweeneach other through inter-intra information flows 103. The inter-intrainformation flows 103 may be supported through radio frequencycommunication, electrical surface contact, radio frequencyidentification (RFID), fiber optical, infrared, wireless networkprotocols, or other.

The system 100 may also include one or more instances of extra-e-paperassemblies (herein “external devices”) 104, which may exchangeinformation between each other through inter-extra information flows105. One or more of the external devices 104 may receive information toone or more of the e-papers 102 through intra-extra information flow 106and may send information to one or more of the e-papers throughextra-intra information flow 108.

An exemplary implementation of the e-paper 102 is shown in FIG. 2 asoptionally having a content unit 112, a sensor unit 114, a recognitionunit 116, an application unit 118, a communication unit 120, aconformation unit 122, a display unit 124, and a user interface 126. Auser 128 is shown interacting with the e-paper 102 such as throughvisual information retrieval, physical manipulation of the e-paper, orother interaction.

An exemplary implementation of the content unit 112 is shown in FIG. 3as optionally having a content control 130, a content storage 132, and acontent interface 134. Further shown in FIG. 3, an exemplaryimplementation of the content control 130 optionally has a contentprocessor 136 with a content logic 138, and a content memory 140.

An exemplary implementation of the sensor unit 114 is shown in FIG. 4 asoptionally having a sensor control 142, a sensor 144, and a sensorinterface 146. Further shown in FIG. 4, an exemplary implementation ofthe sensor control 142 optionally has a sensor processor 148 with asensor logic 150, and a sensor memory 152. Further shown in FIG. 4 areexemplary implementations of the sensor 144 optionally including astrain sensor 144 a, a stress sensor 144 b, an optical fiber sensor 144c, a surface sensor 144 d, a force sensor 144 e, a gyroscopic sensor 144f, and a global positioning system (GPS) sensor 144 g.

An exemplary implementation of the recognition unit 116 is shown in FIG.5 as optionally having a recognition control 154, a recognition engine156, and a recognition interface 158. Further shown in FIG. 5, anexemplary implementation of the recognition control 154 optionally has arecognition processor 160 with a recognition logic 162, and arecognition memory 164.

An exemplary implementation of the application unit 118 is shown in FIG.6 as optionally having an application control 166, an applicationstorage 168, and an application interface 170. Further shown in FIG. 6,an exemplary implementation of the application control 166 optionallyhas an application processor 172 with an application logic 174, and anapplication memory 176. The application memory 176 is shown tooptionally include a cell phone application 176 a, a televisionapplication 176 b, a PDA application 176 c, a personal computerapplication 176 d, an eBook application 176 e, a calendar application176 f, a wallet application 176 g, an audio application 176 h, a videoapplication 176 i, an audio-video application 176 j, a game application176 k, a web browser application 176 l, a mapping application 176 m, andan entertainment application 176 n.

The cell phone application 176 a may be configured to communicatethrough the application interface 170 with the communication unit 116 toallow for reception and transmission involved with establishing andconducting wireless cellular based phone calls through wireless portionsof the communication receiver 180 and wireless portions of thecommunication transmitter 182. The cell phone application 176 a may beconfigured to communicate with the display unit 124 to display graphicportions of the cellular call and control features of the cell phoneapplication via the display hardware 204 through the display interface206. Audio portions of cellular phone calls may be output from a speakerportion of the user interface transmitter 218 and may be input to amicrophone portion of the user interface receiver 216 of the userinterface unit 126 by the cell phone application 176 a communicatingwith the user interface unit through the user interface control 214. Thecell phone application 176 a may communicate with touch input portionsof the user interface receiver 216 through the user interface control214 when combined with the display hardware 204 to furnish touch screencapability, softkeys, a directional pad, numeric keypad, and/or a thumbkeyboard, etc.

The television application 176 b may be configured to communicatethrough the application interface 170 with the communication unit 116 toallow for selection and reception of television programming through thecommunication receiver 180 either by wireless or by wired approaches.The television application 176 b may be configured to communicate withthe display unit 124 to display video portions of the televisionprogramming and control features of the television application via thedisplay hardware 204 through the display interface 206. Audio portionsof the television programming may be output from a speaker portion ofthe user interface transmitter 218 of the user interface unit 126 by thetelevision application 176 b communicating with the user interface unitthrough the user interface control 214. The television application 176 bmay communicate with touch input portions of the user interface receiver216 through the user interface control 214 when combined with thedisplay hardware 204 to furnish touch screen capability, softkeys, adirectional pad, numeric keypad, and/or a thumb keyboard, etc.

The personal data assistant (PDA) application 176 c may be configured tocommunicate with the display unit 124 to display graphic output portionsand control features of the PDA application via the display hardware 204through the display interface 206. Audio portions of the PDA application176 c may be output from a speaker portion of the user interfacetransmitter 218 and may be input to a microphone portion of the userinterface receiver 216 of the user interface unit 126 by the PDAapplication communicating with the user interface unit through the userinterface control 214. The PDA application 176 c may communicate withtouch input portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The PDA application 176 c mayinclude such functions as appointment calendar, to-do list, addressbook, text entry program, e-mail, and/or web browser support, etc.

The personal computer application 176 d may be configured to communicatewith the display unit 124 to display graphic output portions and controlfeatures of the personal computer application via the display hardware204 through the display interface 206. Audio portions of the personalcomputer application 176 d may be output from a speaker portion of theuser interface transmitter 218 and may be input to a microphone portionof the user interface receiver 216 of the user interface unit 126 by thepersonal computer application 176 d communicating with the userinterface unit through the user interface control 214. The personalcomputer application 176 d may communicate with touch input portions ofthe user interface receiver 216 through the user interface control 214when combined with the display hardware 204 to furnish touch screencapability, softkeys, a directional pad, numeric keypad, and/or a thumbkeyboard, etc. The personal computer application 176 d may serve as ageneral purpose computer with computer programs being stored in thecontent storage 132 and being executed by through the application logic174 of the application processor 172 while being contained in theapplication memory 176. The personal computer application 176 d may beconfigured to communicate through the application interface 170 with thecommunication unit 116 to allow for reception and transmission involvedwith establishing and conducting wireless or wired access to computernetworks (such as the Internet) through portions of the communicationreceiver 180 and wireless portions of the communication transmitter 182.

The eBook application 176 e may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the eBook application via the display hardware 204 through thedisplay interface 206. Audio portions of the eBook application 176 e maybe output from a speaker portion of the user interface transmitter 218and may be input to a microphone portion of the user interface receiver216 of the user interface unit 126 by the eBook applicationcommunicating with the user interface unit through the user interfacecontrol 214. The eBook application 176 e may communicate with touchinput portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The eBook application 176 e mayallow reader access through visual display by the display hardware 210of textual and graphic content, such as books, periodicals, brochures,catalogs, etc., being stored in the content storage 132 of the contentunit 112.

The calendar application 176 f may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the calendar application via the display hardware 204 through thedisplay interface 206. Audio portions of the calendar application 176 fmay be output from a speaker portion of the user interface transmitter218 and may be input to a microphone portion of the user interfacereceiver 216 of the user interface unit 126 by the calendar applicationcommunicating with the user interface unit through the user interfacecontrol 214. The calendar application 176 f may communicate with touchinput portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The calendar application 176 f mayinclude such functions as appointment tracking, docketing functions,journal entries, etc.

The wallet application 176 g may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the calendar application via the display hardware 204 through thedisplay interface 206. Audio portions of the wallet application 176 gmay be output from a speaker portion of the user interface transmitter218 and may be input to a microphone portion of the user interfacereceiver 216 of the user interface unit 126 by the wallet applicationcommunicating with the user interface unit through the user interfacecontrol 214. The wallet application 176 g may communicate with touchinput portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The wallet application 176 f mayinclude such functions as debit and credit card authorization control toreplace or supplement physical debit and credit cards, financialtransaction management of bank, savings, loan, and other financialaccounts, payment management of various accounts, identification storageand management of personal and other identification including financial,medical, passport, and other identification, and photo storage andmanagement of personal and other photos, etc.

The audio application 176 h may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the audio application via the display hardware 204 through thedisplay interface 206. Audio portions of the audio application 176 h maybe output from a speaker portion of the user interface transmitter 218and may be input to a microphone portion of the user interface receiver216 of the user interface unit 126 by the audio applicationcommunicating with the user interface unit through the user interfacecontrol 214. The audio application 176 h may communicate with touchinput portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The audio application 176 e mayallow listener access through the speaker portion of the user interfacetransmitter 218 of audio content being stored in the content storage 132of the content unit 112.

The video application 176 i may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the video application via the display hardware 204 through thedisplay interface 206. The video application 176 i may communicate withtouch input portions of the user interface receiver 216 through the userinterface control 214 when combined with the display hardware 204 tofurnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The video application 176 i mayallow viewer access through the display hardware 204 via a video portionof the user interface transmitter 218 to video content being stored inthe content storage 132 of the content unit 112.

The audio-video application 176 j may be configured to communicate withthe display unit 124 to display graphic and video output portions andcontrol features of the audio-video application via the display hardware204 through the display interface 206. Audio portions of the audio-videoapplication 176 j may be output from a speaker portion of the userinterface transmitter 218 and may be input to a microphone portion ofthe user interface receiver 216 of the user interface unit 126 by theaudio-video application communicating with the user interface unitthrough the user interface control 214. The audio-video application 176j may communicate with touch input portions of the user interfacereceiver 216 through the user interface control 214 when combined withthe display hardware 204 to furnish touch screen capability, softkeys, adirectional pad, numeric keypad, and/or a thumb keyboard, etc. Theaudio-video application 176 j may allow user access through visualdisplay by the display hardware 210 of textual and graphic content beingstored in the content storage 132 of the content unit 112 and throughaudio output of the speaker portion of the user interface transmitter218 of audio content being stored in the content storage.

The game application 176 k may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the game application via the display hardware 204 through the displayinterface 206. Audio portions of the game application 176 k may beoutput from a speaker portion of the user interface transmitter 218 andmay be input to a microphone portion of the user interface receiver 216of the user interface unit 126 by the game application communicatingwith the user interface unit through the user interface control 214. Thegame application 176 k may communicate with touch input portions of theuser interface receiver 216 through the user interface control 214 whencombined with the display hardware 204 to furnish touch screencapability, softkeys, a directional pad, numeric keypad, and/or a thumbkeyboard, etc. The game application 176 k may allow gamer access throughvisual display by the display hardware 210 of textual and graphiccontent being stored in the content storage 132 of the content unit 112and through audio output of the speaker portion of the user interfacetransmitter 218 of audio content being stored in the content storage.The game application 176 k may include arcade, racing, strategy,educational, board, sports, and/or other sorts of game types.

The web browser application 176 l may be configured to communicate withthe display unit 124 to display graphic output portions and controlfeatures of the web browser via the display hardware 204 through thedisplay interface 206. Audio portions of the web browser application 176l may be output from a speaker portion of the user interface transmitter218 and may be input to a microphone portion of the user interfacereceiver 216 of the user interface unit 126 by the web browserapplication communicating with the user interface unit through the userinterface control 214. The web browser application 176 l may communicatewith touch input portions of the user interface receiver 216 through theuser interface control 214 when combined with the display hardware 204to furnish touch screen capability, softkeys, a directional pad, numerickeypad, and/or a thumb keyboard, etc. The web browser application 176 lmay serve as a web browser to the Internet with one or more web browserprograms being stored in the content storage 132 and being executed bythrough the application logic 174 of the application processor 172 whilebeing contained in the application memory 176. The web browserapplication 176 l may be configured to communicate through theapplication interface 170 with the communication unit 116 to allow forreception and transmission involved with establishing and conductingwireless or wired access to computer networks (such as the Internet)through portions of the communication receiver 180 and wireless portionsof the communication transmitter 182.

The mapping application 176 m may be configured to communicate with thedisplay unit 124 to display graphic output portions and control featuresof the mapping application via the display hardware 204 through thedisplay interface 206. Audio portions of the mapping application 176 dmay be output from a speaker portion of the user interface transmitter218 and may be input to a microphone portion of the user interfacereceiver 216 of the user interface unit 126 by the personal computerapplication 176 d communicating with the user interface unit through theuser interface control 214. The mapping application 176 m maycommunicate with touch input portions of the user interface receiver 216through the user interface control 214 when combined with the displayhardware 204 to furnish touch screen capability, softkeys, a directionalpad, numeric keypad, and/or a thumb keyboard, etc. The mappingapplication 176 m may be in communication with the GPS sensor 144 g ofthe sensor unit 114 to receive position data to be shown on a mapdisplayed on the display hardware 210.

The entertainment application 176 n may be configured to communicatewith the display unit 124 to display graphic and video output portionsand control features of the entertainment application 176 n applicationvia the display hardware 204 through the display interface 206. Audioportions of the entertainment application 176 n may be output from aspeaker portion of the user interface transmitter 218 and may be inputto a microphone portion of the user interface receiver 216 of the userinterface unit 126 by the entertainment application communicating withthe user interface unit through the user interface control 214. Theentertainment application 176 n may communicate with touch inputportions of the user interface receiver 216 through the user interfacecontrol 214 when combined with the display hardware 204 to furnish touchscreen capability, softkeys, a directional pad, numeric keypad, and/or athumb keyboard, etc. The entertainment application 176 n may allow useraccess through visual display by the display hardware 210 ofentertainment type textual, graphic, video, and/or other content beingstored in the content storage 132 of the content unit 112 and throughaudio output of the speaker portion of the user interface transmitter218 of audio content being stored in the content storage. Entertainmenttype content may utilize audio, video, and/or audio-video capabilities,for example, such as playing of shows, movies, documentaries, etc;serving as a user interface to an interactive computer program, aninteractive communication interface, an interactive music device, aninteractive training device, an interactive exercise device, aninteractive pet device, an interactive tourism device, an interactivesocial networking device, an interactive safety device, an interactivemonitoring device, an interactive reference device and/or otherinteractive device.

An exemplary implementation of the communication unit 120 is shown inFIG. 7 as optionally having a communication control 178, a communicationreceiver 180, and a communication transmitter 182. Further shown in FIG.7, an exemplary implementation of the communication control 178optionally has a communication processor 184 with a communication logic186, and a communication memory 188.

An exemplary implementation of the conformation unit 122 is shown inFIG. 8 as optionally having a conformation control 190, conformationhardware 192, and a conformation interface 194. Further shown in FIG. 8,an exemplary implementation of the conformation control 190 optionallyhas a conformation processor 196 with a conformation logic 198, and aconformation memory 200.

An exemplary implementation of the display unit 124 is shown in FIG. 9as optionally having a display control 202, display hardware 204, and adisplay interface 206. Further shown in FIG. 9, an exemplaryimplementation of the display control 202 optionally has a displayprocessor 208 with a display logic 210, and a display memory 212.

An exemplary implementation of the user interface unit 126 is shown inFIG. 10 as optionally having a user interface control 214, userinterface receiver 216, and a user interface transmitter 218. Furthershown in FIG. 10, an exemplary implementation of the user interfacecontrol 202 optionally has a user interface processor 220 with a userinterface logic 222, and a user interface memory 224.

Exemplary implementations of modules of the intra-e-paper modules 127 ofthe user interface unit 126 is shown in FIG. 11 as optionally having aconformation sensor module 302, a display control module 304. aconformation detection module 306, a conformation strain module 308, aconformation stress module 310, a conformation calibration module 312, aconformation pattern module 314, a surface contact module 316, aconformation sequence module 318, a conformation geometry module 320, aconformation indicia module 324, an optical fiber module 326, aconformation association module 328, a conformation signal module 330, aconformation selection module 332, an origami-like folding module 334, afolding sequence module 336, an origami-like shape module 338, a bendangle module 342, a bend number module 344, a conformation force module346, a conformation transient module 348, a conformation persistentmodule 350, a conformation gesture module 356, a conformation connectionmodule 357, a conformation draping module 358, a conformation wrappingmodule 359, a conformation curvilinear module 360, a conformationrolling module 361, a conformation hinge module 362, a bend radiusmodule 363, a fold ratio module 364, and an other modules 365.

The conformation sensor module 302 is configured to direct acquisitionof first information such as obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice such as the e-paper 102 of FIG. 2.

The display control module 304 of FIG. 11 is configured to directcontrol of display of one or more portions such as display portions 608of FIG. 19, of an electronic paper assembly or other bendable displaycontaining electronic device, such as the e-paper 102 of FIG. 2,regarding display of second information in response to the firstinformation associated with the one or more conformations of the one ormore portions of the one or more regions of the electronic paperassembly or other bendable display containing electronic device.

The coordination module 305 of FIG. 11 is configured to coordinate suchas one or more coordination modules configured to direct coordinatingthe one or more sequences of two or more conformations of one or moreportions of one or more regions of the electronic paper assembly orother bendable display containing electronic device with one or morecommands such as the e-paper 102 of FIG. 2.

The conformation detection module 306 is configured to directacquisition of detection information such as detecting one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device suchas the regions 604 of the exemplary implementation 602 of the e-paper102 of FIG. 20.

The conformation strain module 308 is configured to direct acquisitionof strain information such as obtaining strain information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation stress module 310 is configured to direct acquisitionof stress information such as obtaining stress information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation calibration module 312 is configured to directacquisition of calibration related information such as obtainingcalibration related information associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the bendable display containing electronic device such as the regions604 of the exemplary implementation 602 of the e-paper 102 of FIG. 20.

The conformation pattern module 314 configured to direct acquisition ofpattern information such as obtaining pattern information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The surface contact module 316 is configured to direct acquisition ofsurface contact information such as obtaining surface contactinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device such as the regions 604 ofthe exemplary implementation 602 of the e-paper 102 of FIG. 20.

The conformation sequence module 318 is configured to direct acquisitionof sequence information such as obtaining sequence informationassociated with two or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation geometry module 320 is configured to direct acquisitionof geometrical information such as obtaining geometrical informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation indicia module 324 is configured to direct acquisitionof indicia information such as obtaining information related topredetermined indicia associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of thebendable display containing electronic device such as the regions 604 ofthe exemplary implementation 602 of the e-paper 102 of FIG. 20.Predetermined indicia could be stored in the sensor memory 152 of thesensor control 142 of the sensor 114 and may be related to one or moremeasurement results of one or more readings by one or more of thesensors 144. One or more measurement results by one or more of thesensors 144 could thus be characterized by the predetermined indicia.Predetermined indicia could be stored in the recognition memory 164 ofthe recognition control 154 of the recognition unit 116 and may berelated to one or more recognition results of the recognition engine156. One or more recognition results by the recognition engine 156 couldthus be characterized by the predetermined indicia.

The optical fiber module 326 is configured to direct acquisition ofoptical fiber derived information such as obtaining optical fiberderived information associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device such as the regions 604 ofthe exemplary implementation 602 of the e-paper 102 of FIG. 20.

The conformation association module 328 is configured to directacquisition of association information such as obtaining informationbased on one or more sequences of one or more associations between twoor more of the portions of the one or more regions of the bendabledisplay containing electronic device associated with the two or moreconformations of the one or more portions of the one or more regions ofthe bendable display containing electronic device such as the regions604 of the exemplary implementation 602 of the e-paper 102 of FIG. 20.

The conformation signal module 330 is configured to direct acquisitionof signals such as receiving signals from embedded sensors such as oneor more of the sensors 144 of FIG. 4.

The conformation selection module 332 is configured to directacquisition of selection information such as obtaining selectioninformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device associated with one ormore conformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device.

The origami-like folding module 334 is configured to direct acquisitionof origami-like folding information (the term “origami-like” may includeany sort of information related to one or more shaped objectrepresentations involving through geometric fold and/or crease patternswithout gluing or cutting, such as origami, zhezhi, etc.) such asobtaining origami-like folding information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device suchas the regions 604 of the exemplary implementation 602 of the e-paper102 of FIG. 20.

The folding sequence module 336 is configured to direct acquisition of afolding sequence order such as obtaining one or more orders of foldingsequences of one or more portions of one or more regions of the bendabledisplay containing electronic device such as the regions 604 of theexemplary implementation 602 of the e-paper 102 of FIG. 20.

The origami-like shape module 338 is configured to direct acquisition ofan origami-like resultant shape information such as obtainingorigami-like resultant shape information associated with one or moresequences of two or more origami-like shapes resultant from one or morefolding sequences of one or more portions of one or more regions of thebendable display containing electronic device such as the regions 604 ofthe exemplary implementation 602 of the e-paper 102 of FIG. 20.

The bend angle module 342 is configured to direct acquisition of angleof bend information such as obtaining angle of bend informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The bend number module 344 is configured to direct acquisition of bendnumber information such as obtaining bend number information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20. Bend numberinformation may be related to the number of folds or bends that aparticular conformation my have in general and/or may also relate to thenumber of various type of folds or bonds such as based upon theorientation and/or extent of each of the folds or bends.

The conformation force module 346 is configured to direct acquisition offorce information such as obtaining force information associated withone or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation transient module 348 is configured to directacquisition of substantially transient information such as obtainingsubstantially transient information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device suchas the regions 604 of the exemplary implementation 602 of the e-paper102 of FIG. 20.

The conformation persistent module 350 is configured to directacquisition of substantially persistent information such as obtainingsubstantially persistent information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device suchas the regions 604 of the exemplary implementation 602 of the e-paper102 of FIG. 20. Transient conformations and persistent conformations maybe relative to one another depending upon the context or environmentthat the e-paper 102 is found in. In general, transient may mean lastinga short time whereas persistent may be defined as existing or remainingin the same shape for an indefinitely long time. For instance, in thecontext of reading the e-paper 102, a flick of the e-paper may cause abrief conformation during the flicking action as compared to aconformation in which the e-paper is being read. Relatively speaking, inthe context of the reading, the flicking action may be viewed astransient whereas the conformation during reading of the e-paper 102 maybe viewed as persistent. In another context, a transition from oneconformation to another of the e-paper 102 may be viewed as a series oftransient conformations whereas the before and after conformationssubject to the change may be viewed as persistent. In some contextstransient could be in terms of seconds and persistent would be in termsof minutes. In other contexts transient could be in terms of minutes andpersistent would be in terms of hours. In other contexts transient couldbe in terms of hours and persistent could be in terms of days. In othercontexts transient could be in terms of fractions of seconds andpersistent in terms of seconds. Other contexts may also be envisioned asbeing applicable. In some implementations duration parameterscharacterizing transient and persistent could be predetermined by theuser 128 of the e-paper 102 and stored in the conformation memory 200.

The conformation gesture module 356 is configured to direct acquisitionof gestured information such as obtaining gestured informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation connection module 357 is configured to directacquisition of connection information such as obtaining connectionsequence information of one or more sequences of two or more connectionsbetween two or more of the portions of the one or more regions of thebendable display containing electronic device associated with one ormore sequences of two or more conformations of one or more portions ofone or more regions of the bendable display containing electronic devicesuch as the regions 604 of the exemplary implementation 602 of thee-paper 102 of FIG. 20.

The conformation draping module 358 is configured to direct acquisitionof draping information such as obtaining draping information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation wrapping module 359 is configured to direct acquisitionof wrapping information such as obtaining wrapping informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation curvilinear module 360 is configured to directacquisition of curvilinear information such as obtaining informationderived through sensing one or more sequences of two or more curvilinearpatterns of force imparted upon one or more portions of one or moreregions of the bendable display containing electronic device such as theregions 604 of the exemplary implementation 602 of the e-paper 102 ofFIG. 20.

The conformation rolling module 361 is configured to direct acquisitionof rolling information such as obtaining rolling information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The conformation hinge module 362 is configured to direct acquisition ofhinge status information such as obtaining hinge status informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The bend radius module 363 is configured to direct filtering ofinformation based upon radius of bend such as filtering informationbased upon radius of bend associated with one or more sequences of twoor more conformations of one or more portions of one or more regions ofthe bendable display containing electronic device such as the regions604 of the exemplary implementation 602 of the e-paper 102 of FIG. 20.

The fold ratio module 364 is configured to direct acquisition of foldedto unfolded ratio information such as obtaining folded to unfolded ratioinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device such as the regions 604 ofthe exemplary implementation 602 of the e-paper 102 of FIG. 20.

An exemplary implementation of the other modules 365 is shown in FIG. 12as optionally having a bend location module 366, a second informationdisplay module 366 a, a content selection module 367, a classificationdisplay module 367 a, a content display module 368, a selection module369, an application activation module 370, an application display module371, a cell phone module 372, a television module 373, a personal dataassistant (PDA) module 374, a personal computer module 375, an eBookmodule 376, a calendar module 377, a wallet module 378, an audio module379, a video module 380, an audio-video module 381, a game module 382, aweb browser module 383, a mapping module 384, and an entertainmentmodule 385.

The bend location module 366 is configured to direct acquisition of bendlocation information such as obtaining bend location informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The second information display module 366 a is configured to directdisplay such as displaying the second information as having one or moreclassifications.

The private content module blocking module 367 is configured to directdisplay of public content, such as public content 622 of FIG. 23, on oneor more portions of a surface display portion, such as surface display608 c of FIG. 21, viewable from a display surface, such as displaysurface 612 of FIG. 23, and to block an internal display portion, suchas internal display portion 608 c of FIG. 21, from displaying privatecontent, such as private content 520 of FIG. 23, that would otherwise beviewed from the display surface, such as the display surface 612, frombeing viewed from the display surface.

The public content module 368 is configured to direct display of publiccontent, such as public content 622 of FIG. 23, on one or more portions,such as surface display portion 608 c of FIG. 21.

The private content module 369 is configured to direct display ofprivate content, such as private content 620 of FIG. 23, on one or moreportions, such as the surface display portion 608 a of FIG. 21.

The non-private content module 370 is configured to direct display ofother than private content, such as public content 622 of FIG. 23, onone or more portions, such as surface display portion 608 c of FIG. 21.

The non-public content module 371 is configured to direct display ofother than public content, such as private content 620 of FIG. 23, onone or more portions, such as surface display portion 608 a of FIG. 21.

The conformation comparison module 372 is configured to direct comparingof stored data, such as data stored in the conformation logic 198 ofFIG. 8, with the first information associated with one or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device such as the regions 604 of the exemplaryimplementation 602 of the e-paper 102 of FIG. 20.

The comparison display module 373 is configured to direct displaying onone or more portions, such as display portions 608, in response to thecomparing of stored data with the one or more conformations of one ormore portions of one or more regions of the electronic paper assembly orother bendable display containing electronic device, such as the regions604 of the exemplary implementation 602 of the e-paper 102 of FIG. 20.

The classification selection module 374 is configured to directselecting one or more of the classifications, such as private content620 and/or public content 622 of FIG. 23 of the second informationhaving one or more classifications.

The selection display module 375 is configured to direct displaying onone or more portions, such as display portions 608 of FIG. 23, inresponse to the one or more classification selection modules directingselecting one or more of the classifications, such as private content620 and/or public content 622 of FIG. 23 of the second informationhaving one or more classifications.

The non-classification selection module 376 is configured to directselecting other than one or more of the classifications, such as otherthan private content 620 and/or public content 622 of FIG. 23 of thesecond information having one or more classifications.

The other selection display module 377 is configured to directdisplaying on one or more portions, such as display portions 608 of FIG.21, in response to the selecting other than one or more of theclassifications of the second information having one or moreclassifications.

The content selection module 378 is configured to direct selection suchas selecting content to be displayed based upon the obtaininginformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device such as public content 622 of FIG. 23, on one or moreportions, such as surface display 608 c of FIG. 21.

The content display module 379 is configured to direct display ofcontent such as displaying the content to be displayed on one or moreportions of one or more display portions such as public content 622 ofFIG. 23, on one or more portions, such as surface display portion 608 cof FIG. 21.

The selection module 380 is configured to select one or more displayportions for display of the selected content such as selecting one ormore portions to display one or more content based upon the obtaininginformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device such as private content 620 of FIG. 23, on one or moreportions, such as the surface display portion 608 a of FIG. 21.

The application activation module 381 is configured to activate one ormore applications such as activating one or more portions of one or moreapplications based upon the obtaining information associated with one ormore sequences of two or more conformations of one or more portions ofone or more regions of the electronic paper assembly or other bendabledisplay containing electronic device contained in the applicationstorage 168 through the application control 166 of the application unit118 of FIG. 6.

The application display module 382 is configured to direct display ofone or more activated applications such as for each of the one or moreactivated applications, displaying one or more output from the activatedapplication on one or more display portions such as surface displayportion 608 a of FIG. 21.

The cell phone module 383 is configured to provide cell phonefunctionality in response to the application activation module 370activating one or more portions of one or more cell phone applications.

The television module 384 is configured to provide televisionfunctionality in response to the application activation module 370activating one or more portions of one or more television applications.

The personal digital assistant (PDA) module 385 is configured to providePDA functionality in response to the application activation module 370activating one or more portions of one or more personal digitalassistant (PDA) applications.

The personal computer module 386 is configured to provide personalcomputer functionality in response to the application activation module370 activating one or more portions of one or more personal computerapplications.

The eBook module 387 is configured to provide eBook functionality inresponse to the application activation module 370 activating one or moreportions of one or more eBook applications.

The calendar module 388 is configured to calendaring functionality inresponse to the application activation module 370 activating one or moreportions of one or more calendar applications.

The wallet module 389 is configured to provide wallet-like functionalityin response to the application activation module 370 activating one ormore portions of one or more wallet applications.

The audio module 390 is configured to provide audio functionality inresponse to the application activation module 370 activating one or moreportions of one or more audio applications.

The video module 391 is configured to provide video functionality inresponse to the application activation module 370 activating one or moreportions of one or more video applications.

The audio-video module 392 is configured to provide audio-videofunctionality in response to the application activation module 370activating one or more portions of one or more audio-video applications.

The game module 393 is configured to provide game functionality inresponse to the application activation module 370 activating one or moreportions of one or more game applications.

The web browser module 394 is configured to provide web browserfunctionality in response to the application activation module 370activating one or more portions of one or more web browser applications.

The mapping module 395 is configured to provide mapping functionality inresponse to the application activation module 370 activating one or moreportions of one or more mapping applications.

The entertainment module 396 is configured to provide entertainmentfunctionality in response to the application activation module 370activating one or more portions of one or more entertainmentapplications.

An exemplary implementation of the external device 104 is shown in FIG.13 as optionally having a content unit 402, a sensor unit 404, arecognition unit 406, an application unit 408, a communication unit 410,and a user interface 412. A user 414 is shown interacting with theexternal device 104 such as through visual information retrieval,physical manipulation of the external device, or other interaction.

An exemplary implementation of the content unit 402 is shown in FIG. 14as optionally having a content control 426, a content storage 428, and acontent interface 430. Further shown in FIG. 14, an exemplaryimplementation of the content control 426 optionally has a contentprocessor 432 with a content logic 434, and a content memory 438.

An exemplary implementation of the sensor unit 404 is shown in FIG. 15as optionally having a sensor control 438, a sensor 440, and a sensorinterface 442. Further shown in FIG. 15, an exemplary implementation ofthe sensor control 438 optionally has a sensor processor 444 with asensor logic 446, and a sensor memory 448.

An exemplary implementation of the recognition unit 406 is shown in FIG.16 as optionally having a recognition control 450, a recognition engine452, and a recognition interface 454. Further shown in FIG. 16, anexemplary implementation of the recognition control 450 optionally has arecognition processor 456 with a recognition logic 458, and arecognition memory 460.

An exemplary implementation of the application unit 408 is shown in FIG.17 as optionally having an application control 462, an applicationstorage 464, and an application interface 466. Further shown in FIG. 17,an exemplary implementation of the application control 462 optionallyhas an application processor 468 with an application logic 470, and anapplication memory 472.

An exemplary implementation of the communication unit 410 is shown inFIG. 18 as optionally having a communication control 474, acommunication receiver 476, and a communication transmitter 478. Furthershown in FIG. 18, an exemplary implementation of the communicationcontrol 474 optionally has a communication processor 480 with acommunication logic 482, and a communication memory 484.

An exemplary implementation of the user interface unit 412 is shown inFIG. 19 as optionally having a user interface control 486, userinterface receiver 488, and a user interface transmitter 490. Furthershown in FIG. 19, an exemplary implementation of the user interfacecontrol 486 optionally has a user interface processor 492 with a userinterface logic 494, and a user interface memory 496.

A top plan view of an exemplary implementation 602 of the e-paper 102 isshown in FIG. 20 as having a plurality of regions 604 separated byborders 606. The number of the regions and the shape of each of theregions may vary depending upon particular implementations of thee-paper. Consequently, the number and shapes of the borders 606 may alsovary based on specifics of a particular implementation of the e-paper102.

The regions 604 and the borders 606 may be either virtual or physical.Virtual implementations may be based upon a user display selection todisplay on a plurality of different areas of the e-paper 602 variousfiles or other items having different content. There may be a one to onecorrelation between these areas and the regions 604 but in other casesother sorts of correlations are possible. Another example of virtualimplementations of the regions 604 and the borders 606 may includedisplaying different user interfaces to different computer programs ondifferent areas of a display. At least some times the virtualimplementations of the regions 604 and the borders 606 may be readilymodified or replaced outright. Numerous other examples exist for virtualimplementations of the regions 604 and the borders 606.

Physical implementations may include a portion of the borders 606 beingphysically demarcating either structural or otherwise. For instance, atleast a portion of the regions 604 of the e-paper 602 may be separatee-paper portions separated by the borders 606 with the borders beinghinges or micro-hinges or other physical connections.

With both the virtual and the physical implementations of the regions604 and the borders 606 of the e-paper 602, conformations such as bends,folds, or other may exist along the borders but may also exist withinone or more of the regions themselves. Conformations may refer toparticular localized physical aspects such as bends, folds, twists, etcoccurring in one or more of the regions 604 or along one or more of theborders 606. In other implementations, one or more conformations mayrefer to general shapes of the e-paper 602 as resultant from one or moreother localized conformations of the e-paper.

The exemplary implementation 602 of the e-paper 102 is shown in FIG. 21to include a collection of display portions 608: a surface portion 608a, an internal portion 608 b, and a surface portion 608 c. In someimplementations each of the display portions 608 are able to displayinformation under independent control. For instance, the surface portion608 a may be used to either block or allow viewing from a displaysurface 610 of information being displayed by the internal portion 608 bor the surface portion 608 a and the internal portion 608 b may be usedin conjunction to display information together from the display surface610. Meanwhile, the surface portion 608 c could be displayinginformation from a display surface 612. Sensors 614, implementations ofthe sensor 144, are shown coupled with the display portions 608 of thee-paper 602. In other implementations, one or more of the sensors 144may be located in other configurations relative to the display portions608 such as alternating with the display portions in juxtaposition orotherwise internally located along with one or more of the displayportions.

As shown in FIG. 22, the exemplary implementation 602 of the e-paper 102may include a border 604 b between a region 604 a coupled with one ofthe sensors 614 and a region 604 b coupled to another one of the sensors614. As shown in FIG. 23, the exemplary implementation 602 may bepartially folded along the border 604 b. The exemplary implementation602 may also include another implementation of the sensor 144 in theform of a sensor 616 (such as for stress, strain, force, acceleration,etc) and a sensor 618 (such as optical fiber based). These alternativesensor implementations including the sensor 616 and the sensor 618 maybe generally represented by the sensors 614 as well as the sensor 144.The exemplary implementation 602 may include capabilities to displayinformation based upon a classification of the information and ane-paper conformation such as shown in FIG. 23 in which a display ofinformation 620 having a classification of “private” occurs from thedisplay surface 610 (being the inside surface of the illustrated foldedconformation) and in which a display of information 620 having aclassification of “public” classification occurs from the displaysurface 612 (being the outside surface of the illustrated foldedconformation). An exemplary angle of bend 624 and an angle of bend 624 aare is also noted in FIG. 23 since they may be included with otherindicators such as a change of conformation between the bend 624 and thebend 624 a to be used to describe a particular e-paper conformation.

Conformation of the exemplary implementation 602 may be used to assistwith indicating a selection by the user 128 along with controllingdisplay of information having various classifications. For instance, asshown in FIG. 24, a geometry 625 of an exemplary e-paper conformation ofthe exemplary implementation 602 and a geometry 625 a and/or a changethere between as sensed by the sensors 614 may be used to indicate aselection 626 of e-paper function between a plurality of applications627 such as a television function, a personal digital assistantfunction, a cell phone function, a notebook function, and an eBookfunction.

Relative association between two or more portions of the exemplaryimplementation 602 may be used to assist with selection of e-paperfunction, and/or controlling display such as including controllingdisplay of information having various classifications. For instance, asshown in FIG. 25, an exemplary relative association 628 may be sensedbetween two or more of the sensors 614 based upon factors such asseparation distance or other geometrical factors. As shown in FIG. 23 a,an exemplary relative association 628 a may be sensed between thesensors 614 and/or a change in the relative association 628 and therelative association 628 a may be sensed as well.

A time ordered sequence of conformations of the exemplary implementation602 may be used to assist with selection of e-paper function, such asvarious applications to perform, and/or controlling display such asincluding controlling display of information having variousclassifications. For instance, as shown in FIG. 26, an exemplarysequence 630 sensed by the sensors 614 of partial folding of theexemplary implementation 602 to being unfolded to being again partiallyfolded may be used to indicate a selection or otherwise control displaysuch as of display of information having a desired classification. Theexemplary sequence 630 may be indicated in an absolute sense by a seriesof the conformations associated with the sequence or may be indicated ina relative sense by a series of a first change 630 a and a second change630 b that exist between the conformations associated with the sequence.

A coupling type of conformation between two or more instances of theexemplary implementation 602 may be used to assist with selection ofe-paper function, and/or controlling display such as includingcontrolling display of information having various classifications. Forinstance, as shown in FIG. 27, an exemplary coupling conformation 632between exemplary implementations 602 a, 602 b, 602 c, and 602 d of thee-paper 102 as sensed by the sensors 614 may be used to indicate aselection or otherwise control display such as of display of informationhaving a desired classification. Change of a coupling conformation, suchas between the exemplary coupling conformation 632 and an exemplarycoupling conformation 632 a of FIG. 25 may also be used.

A draping type of conformation of the exemplary implementation 602 maybe used to assist with selection of e-paper function, and/or controllingdisplay such as including controlling display of information havingvarious classifications. For instance, as shown in FIG. 28, an exemplarydraping conformation 633 as sensed by the sensors 614 of the exemplaryimplementation 602 over an exemplary object 634 may be used to indicatea selection or otherwise control display such as of display ofinformation having a desired classification. Change of a draping typeconformation, such as between the exemplary draping conformation 633 ofFIG. 28 and an exemplary draping conformation 633 a over an exemplaryobject 634 a of FIG. 28 a may also be used.

A wrapped type of conformation of the exemplary implementation 602 maybe used to assist with selection of e-paper function, and/or controllingdisplay such as including controlling display of information havingvarious classifications. For instance, as shown in FIG. 29, an exemplarywrapped conformation 635 around an exemplary object 636 as sensed by thesensors 614 may be used to indicate a selection or otherwise controldisplay such as of display of information having a desiredclassification. Change of a wrapped type conformation, such as betweenthe exemplary wrapped conformation 635 of FIG. 29 and an exemplarywrapped conformation 635 a around an exemplary object 636 a of FIG. 29 amay also be used.

A transient type of conformation of the exemplary implementation 602such as a scraping action resultant in curvilinear input may be used toassist with selection of e-paper function, and/or controlling displaysuch as including controlling display of information having variousclassifications. For instance, as shown in FIG. 30, an exemplaryinstrument 638 moved in along exemplary path 640 imparting an exemplarytransient conformation 642 having an exemplary scraping conformationaction resultant in a curvilinear conformation input as sensed by thesensors 614 may be used to indicate a selection or otherwise controldisplay such as of display of information having a desiredclassification. Change of a transient conformation 642, such as betweenan exemplary path 640 a and an exemplary path 640 b of FIG. 30 a mayalso be used.

A rolled type of conformation of the exemplary implementation 602 may beused to assist with selection of e-paper function, and/or controllingdisplay such as including controlling display of information havingvarious classifications. For instance, as shown in FIG. 31, an exemplaryrolled conformation 643 as sensed by the sensors 614 of the exemplaryimplementation 602 may be used to indicate a selection or otherwisecontrol display such as of display of information having a desiredclassification. Change of a rolled type conformation, such as betweenthe exemplary rolled conformation 643 and an exemplary rolledconformation 643 a of FIG. 29 may also be used.

A hinge status type of conformation of coupling between two or moreinstances of the exemplary implementation 602 may be used to assist withselection of e-paper function, and/or controlling display such asincluding controlling display of information having variousclassifications. For instance, as shown in FIG. 32, a hinge statusconformation 644 sensed by the sensors 614 of a hinge 645 of theexemplary implementation 602 may be used to indicate a selection orotherwise control display such as of display of information having adesired classification. Change of a hinge status type conformation, suchas between the exemplary hinge status conformation 644 and an exemplaryhinge status conformation 644 a of FIG. 30 may also be used.

Bend radius status type of conformation of the exemplary implementation602 may be used to assist with selection of e-paper function, and/orcontrolling display such as including controlling display of informationhaving various classifications. For instance, as shown in FIG. 33, anexemplary bend radius status conformation 646 as sensed by the sensors614 may be used to indicate a selection or otherwise control displaysuch as of display of information having a desired classification.Change of a bend radius status type of conformation, such as between theexemplary bend radius status conformation 646 and an exemplary bendradius status conformation 646 a of FIG. 31 may also be used.

The various components of the e-paper 102 (e.g., the content unit 112,the sensor unit 114, the recognition unit 116, the application unit 118,the communication unit 120, the conformation unit 122, the display unit124, and the user interface 126) and their sub-components and of theexternal device 104 (e.g., the content unit 402, the sensor unit 404,the recognition unit 406, the application unit 408, the communicationunit 410, and the user interface 412) and their sub-components and theother exemplary entities depicted may be embodied by hardware, softwareand/or firmware. For example, in some implementations the content unit112, the recognition unit 116, and the application unit 118, and theirsub-components, may be implemented with a processor (e.g.,microprocessor, controller, and so forth) executing computer readableinstructions (e.g., computer program product) stored in a storage medium(e.g., volatile or non-volatile memory) such as a signal-bearing medium.Alternatively, hardware such as application specific integrated circuit(ASIC) may be employed in order to implement such modules in somealternative implementations.

Following are a series of flowcharts depicting implementations. For easeof understanding, the flowcharts are organized such that the initialflowcharts present implementations via an example implementation andthereafter the following flowcharts present alternate implementationsand/or expansions of the initial flowchart(s) as either sub-componentoperations or additional component operations building on one or moreearlier-presented flowcharts. Those having skill in the art willappreciate that the style of presentation utilized herein (e.g.,beginning with a presentation of a flowchart(s) presenting an exampleimplementation and thereafter providing additions to and/or furtherdetails in subsequent flowcharts) generally allows for a rapid and easyunderstanding of the various process implementations. In addition, thoseskilled in the art will further appreciate that the style ofpresentation used herein also lends itself well to modular and/orobject-oriented program design paradigms.

An operational flow O10 as shown in FIG. 34 represents exampleoperations related to obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic device andcontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device. FIG. 34and those figures that follow may have various examples of operationalflows, and explanation may be provided with respect to theabove-described examples of FIGS. 1-33 and/or with respect to otherexamples and contexts. Nonetheless, it should be understood that theoperational flows may be executed in a number of other environments andcontexts, and/or in modified versions of FIGS. 1-33. Furthermore,although the various operational flows are presented in the sequence(s)illustrated, it should be understood that the various operations may beperformed in other orders than those which are illustrated, or may beperformed concurrently.

FIG. 34

An operational flow O10 as shown in FIG. 34 represents exampleoperations related to controlling display in response to informationobtained regarding one or more sequences of two or more conformations ofone or more portions of one or more regions of the electronic paperassembly or other bendable display containing electronic device. FIG. 34and those figures that follow may have various examples of operationalflows, and explanation may be provided with respect to theabove-described examples of FIGS. 1-33 and/or with respect to otherexamples and contexts. Nonetheless, it should be understood that theoperational flows may be executed in a number of other environments andcontexts, and/or in modified versions of FIGS. 1-33. Furthermore,although the various operational flows are presented in the sequence(s)illustrated, it should be understood that the various operations may beperformed in other orders than those which are illustrated, or may beperformed concurrently.

In FIG. 34 and those figures that follow, various operations may bedepicted in a box-within-a-box manner. Such depictions may indicate thatan operation in an internal box may comprise an optional exemplaryimplementation of the operational step illustrated in one or moreexternal boxes. However, it should be understood that internal boxoperations may be viewed as independent operations separate from anyassociated external boxes and may be performed in any sequence withrespect to all other illustrated operations, or may be performedconcurrently.

After a start operation, the operational flow O10 may move to anoperation O11, where obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic device may be,executed by, for example, the sensor unit 114 of the e-paper 102 of FIG.2 and/or acquisition of the sequence information may be directed by oneor more conformation sensor modules 302 of FIG. 11. An exemplaryimplementation may include obtaining (e.g. obtaining may be performedthrough one or more of the sensors 614 (see FIG. 23) as exemplaryimplementations of the sensor 144 (see FIG. 4)) information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the electronic paper assembly orother bendable display containing electronic device (e.g. a sequence oftwo conformations having the angle of bend 624 and the angle of bend 624a (see FIG. 23) of the exemplary implementation 602 of the e-paper 102.The one or more of the sensors 614 as exemplary implementations of thesensor 144 may relay the information about the sequence of the angle ofbend 624 and the angle of bend 624 a through the sensor interface 146(see FIG. 4) to the recognition unit 166 (see FIG. 5) through therecognition interface 158 where the recognition engine 156 may determinethat the sequence of the angle of bend 624 and the angle of bend 624 ais associated with a sequence of two conformations as retrieved from theconformation memory 200 (see FIG. 8) through the conformation interface194) of one or more portions of one or more regions (e.g. the region 604a and the region 604 b (see FIGS. 22 and 23) are angularly oriented withone another along the border 606 a) of the electronic paper assembly orother bendable display containing electronic device (e.g. of theimplementation 602 (see FIGS. 20 and 23) of the e-paper 102).

The operational flow O10 may then move to operation O12, wherecontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device may beexecuted by, for example, the display unit 124 of FIG. 9 and/or controlof display being directed by one or more of the display control modules304 of FIG. 11. An exemplary implementation may include controllingdisplay (e.g. the display control 202 can control the display hardware204 (see FIG. 9) to display information on the region 604 a and theregion 604 b (see FIG. 23)) of one or more portions of the electronicpaper assembly or other bendable display containing electronic deviceregarding display of second information (e.g. information contained inthe content storage 132 of the content unit 112 (see FIG. 3)) inresponse to the first information associated with the one or moresequences of two or more conformations of the one or more portions ofthe one or more regions of the electronic paper (e.g. the displaycontrol 202 (see FIG. 9) may control display in response tocommunication through the display interface 206 with the recognitionunit 116 (see FIG. 5) through the recognition interface 158 forrecognized present conformation (such as the partially foldedconformation of FIG. 23) and communication through the display interfacewith the content unit 112 (see FIG. 3) through the content interface134.

FIG. 35

FIG. 35 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 35 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1101, O1102, O1103,O1104, and/or O1105, which may be executed generally by, in someinstances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1101 for detecting one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the bendable display containing electronic device. An exemplaryimplementation may include one or more of the conformation detectionmodules 306 of FIG. 11 directing acquisition of detection such asdetecting one or more sequences of two or more conformations (e.g.detecting may be performed by one or more of the sensors 614 (see FIG.23) as exemplary implementations of the sensor 144 (see FIG. 4) of thesensor unit 114 obtaining sensing data in combination with therecognition engine 156 (see FIG. 5) through the recognition logic 162matching conformation detail contained in the recognition memory 164with the sensing data such as found with a sequence of two conformationsinvolving the partially folded conformation of the exemplaryimplementation 602 of the e-paper 102 having the angle of bend 624 andthe partially folded conformation having the angle of bend 624 a shownin FIG. 23) of one or more portions of one or more regions (e.g. theregion 604 a and the region 604 b) of the electronic paper assembly orother bendable display containing electronic device (e.g. the exemplaryimplementation 602 of the e-paper 102 of FIG. 23).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1102 for obtaining strain informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more of the conformation strain modules 308 of FIG. 11 directingthe acquisition of strain information such as obtaining straininformation (e.g. one or more of the sensors 614 (see FIG. 23) asexemplary implementations of the strain sensor 144 a (see FIG. 4) of thesensor 144 may obtain strain information) associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the electronic paper assembly or other bendable displaycontaining electronic device (e.g. the conformation unit 122 (see FIG.8) may maintain in the conformation memory 200 one or more associationsbetween strain information to be obtained by the sensors 614 and one ormore sequences of two or more conformations such as a sequence involvingthe partially folded conformation of the region 604 a and the region 604b of the exemplary implementation 602 of the e-paper 102 having theangle of bend 624 and the partially folded conformation having the angleof bend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1103 for obtaining stress informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more of the stress modules 310 of FIG. 11 directing theacquisition of stress information such as obtaining stress information(e.g. one or more of the sensors 614 (see FIG. 23) as exemplaryimplementations of the stress sensor 144 b (see FIG. 4) of the sensor144 may obtain stress information) associated with one or more sequencesof two or more conformations of one or more portions of one or moreregions of the electronic paper assembly or other bendable displaycontaining electronic device (e.g. the conformation unit 122 (see FIG.8) may maintain in the conformation memory 200 one or more associationsbetween stress information to be obtained by the sensors 614 and one ormore sequences of two or more conformations such as a sequence involvingthe partially folded conformation of the region 604 a and the region 604b of the exemplary implementation 602 of the e-paper 102 having theangle of bend 624 and the partially folded conformation having the angleof bend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1104 for obtaining calibration relatedinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more of the conformation calibrationmodules 312 of FIG. 11 directing the acquisition of calibration relatedinformation such as obtaining calibration related information (e.g. oneor more of the sensors 614 (see FIG. 23) as exemplary implementations ofthe sensor 144 (see FIG. 4) may obtain sensor information to be comparedby the recognition engine 156 (see FIG. 5) with sensor informationobtained previously as calibrated with respect to predeterminedconformations that the e-paper 102 may assume) associated with one ormore sequences of two or more conformations of one or more portions ofone or more regions of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. the conformation unit 122(see FIG. 8) may maintain in the conformation memory 200 one or moreassociations between the previously obtained sensor informationcalibrated with respect to one or more sequences involving predeterminedconformations that the e-paper 102 may assume such as for example asequence involving the partially folded conformation of the region 604 aand the region 604 b of the exemplary implementation 602 of the e-paper102 having the angle of bend 624 and the partially folded conformationhaving the angle of bend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1105 for obtaining pattern informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more of the conformation pattern modules 314 of FIG. 11 directingthe acquisition of pattern information such as obtaining patterninformation (e.g. one or more of the sensors 614 (see FIG. 23) asexemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information to be compared by the recognition engine 156 (seeFIG. 5) with sensor information obtained previously with respect to oneor more predetermined patterns formed by conformations that the e-paper102 may assume) associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to one or moresequences involving two or more predetermined patterns formed byconformations that the e-paper 102 may assume such as for example asequence involving the partially folded conformation of the region 604 aand the region 604 b of the exemplary implementation 602 of the e-paper102 having the angle of bend 624 and the partially folded conformationhaving the angle of bend 624 a).

FIG. 36

FIG. 36 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 36 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1106, O1107, O1108,O1109, and/or O1110, which may be executed generally by, in someinstances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1106 for obtaining surface contact informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more surface contact modules 316 of FIG. 11 directing theacquisition of surface contact information such as obtaining surfacecontact information (e.g. one or more of the sensors 614 (see FIG. 23)as exemplary implementations of the surface sensor 144 d (see FIG. 4) ofthe sensor 144 may obtain surface contact information) associated withone or more sequences of two or more conformations of one or moreportions of one or more regions of the electronic paper assembly orother bendable display containing electronic device (e.g. theconformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between surface contact informationto be obtained by the sensors 614 and involving two or moreconformations such as a sequence involving the partially foldedconformation of the region 604 a and the region 604 b of the exemplaryimplementation 602 of the e-paper 102 having the angle of bend 624 andthe partially folded conformation having the angle of bend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1107 for obtaining sequence informationassociated with two or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation sequence modules 318 of FIG. 11 directing theacquisition of sequence information such as obtaining sequenceinformation (e.g. one or more of the sensors 614 (see FIG. 26) asexemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information over one or more periods of time to be compared bythe recognition engine 156 (see FIG. 5) with sensor information obtainedpreviously over one or more periods of time with respect to one or morepredetermined sequences of two or more conformations that the e-paper102 may assume) associated with two or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to two or moresequences such as involving two or predetermined sequences formed byconformations that the e-paper 102 may assume such as a first sequenceinvolving the first change 630 a and a second sequence involving thesecond change 630 b associated with the exemplary sequence 630(comprised of the first sequence and the second sequence) ofconformations of the region 604 a and the region 604 b of the exemplaryimplementation 602 of the e-paper 102 occurring in a time orderedsequence as illustrated in FIG. 26).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1108 for obtaining geometrical informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation geometry modules 320 of FIG. 11 directing theacquisition of geometrical information such as obtaining geometricalinformation (e.g. one or more of the sensors 614 (see FIG. 24) asexemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information regarding the geometry 625 (see FIG. 24) to becompared by the recognition engine 156 (see FIG. 5) with sensorinformation obtained previously with respect to one or morepredetermined geometries formed by conformations that the e-paper 102may assume) associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to the one ormore sequences involving one or more geometries formed by conformationsthat the e-paper 102 may assume such as for example a sequence involvingthe geometry 625 and the geometry 625 a (see FIG. 24) including theregion 604 a and the region 604 b of the exemplary implementation 602 ofthe e-paper 102).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1109 for obtaining information related topredetermined indicia associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more of the conformation indiciamodules 324 of FIG. 11 directing the acquisition of information relatedto predetermined indicia such as obtaining information related topredetermined indicia (e.g. one or more of the sensors 614 (see FIG. 23)as exemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information to be compared by the recognition engine 156 (seeFIG. 5) with predetermined indicia of conformations that the e-paper 102may assume) associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe previously obtained sensor information calibrated with respect toone or more sequences involving two or more conformations that thee-paper 102 may assume such as for example a sequence involving thepartially folded conformation of the region 604 a and the region 604 bof the exemplary implementation 602 of the e-paper 102 having the angleof bend 624 and the partially folded conformation having the angle ofbend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1110 for obtaining optical fiber derivedinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more optical fiber modules 326 of FIG.11 directing the acquisition of optical fiber derived information suchas obtaining optical fiber derived information (e.g. one or more of thesensors 614 (see FIG. 23) as exemplary implementations of the opticalfiber sensor 144 c (see FIG. 4) of the sensor 144 may obtain opticalfiber derived information) associated with one or more sequences of twoor more conformations of one or more portions of one or more regions ofthe electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe optical fiber derived information to be obtained by the sensors 614and one or more sequences of two or more conformations such as asequence involving the partially folded conformation of the region 604 aand the region 604 b of the exemplary implementation 602 of the e-paper102 having the angle of bend 624 and the partially folded conformationhaving the angle of bend 624 a).

FIG. 37

FIG. 37 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 37 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1111, O1113, O1114,and/or O1115, which may be executed generally by, in some instances, thesensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1111 for obtaining information based on one ormore sequences of one or more associations between two or more of theportions of the one or more regions of the bendable display containingelectronic device associated with the two or more conformations of theone or more portions of the one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation association modules 328 of FIG. 11 directingthe acquisition of information based on one or more sequences of two ormore associations such as obtaining information based on one or moresequences of two or more associations between two or more of theportions of the one or more regions of the electronic paper assembly orother bendable display containing electronic device (e.g. two or more ofthe sensors 614 (see FIG. 23) as exemplary implementations of the sensor144 (see FIG. 4) may obtain information based on one or more sequencesof two or more of the associations between the sensors positioned atvarious portions of various regions wherein the associations may berelated to factors such as distance, relative strain, or relative stressbetween the sensors) associated with two or more conformations of one ormore portions of one or more regions of the electronic paper assembly orother bendable display containing electronic device (e.g. theconformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more of correlations between the sensor informationregarding change between the one or more of the associations 628 (seeFIG. 25) and one or more of the associations 628 a (see FIG. 25 a)involving the region 604 a and the region 604 b of the exemplaryimplementation 602 of the e-paper 102).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1113 for receiving signals from embeddedsensors. An exemplary implementation may include one or moreconformation signal modules 330 of FIG. 11 directing the acquisition ofsignals such as receiving signals from embedded sensors (e.g. one ormore of the sensors 614 (see FIG. 30) as exemplary implementations ofthe sensor 144 (see FIG. 4) may send obtained sensor information to thesensor control 142 to be further sent through the sensor interface 146to units such as the recognition unit 116 (see FIG. 5) by receipt ofsignals from the sensor interface through the recognition interface 158.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1114 for obtaining selection informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation selection modules 332 of FIG. 11 directing theacquisition of selection information such as obtaining selectioninformation (e.g. the selection 626 between TV, PDA, cell phone,notebook PC, and eBook functionality (see FIG. 24) may be obtained byhaving the recognition engine 156 (see FIG. 5) use sensor informationfrom one or more of the sensors 614 (see FIG. 24) in conjunction withpredetermined configuration data stored in the conformation memory 200(see FIG. 8) to recognize one or more sequences of predeterminedconformations, which may then be used by the application control 166(see FIG. 6) of the application unit 118 to select a functionality perdata stored in the application memory 176) associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the electronic paper assembly or other bendable displaycontaining electronic device (e.g. a sequence involving theconformations of the geometry 625 and the geometry 625 a of theexemplary implementation 602 of the e-paper 102 including the region 604a and the region 604 b as illustrated in FIG. 24).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1115 for obtaining origami-like foldinginformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more origami-like folding modules 334of FIG. 11 directing the acquisition of origami-like folding informationsuch as obtaining origami-like folding information (e.g. one or more ofthe sensors 614 (see FIG. 23) as exemplary implementations of the sensor144 (see FIG. 4) may obtain sensor information to be compared by therecognition engine 156 (see FIG. 5) with sensor information obtainedpreviously with respect to one or more predetermined origami-likefolding results formed by conformations that the e-paper 102 may assume)associated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the electronic paperassembly or other bendable display containing electronic device (e.g.the conformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between the sensor informationpreviously obtained with respect to one or more sequences of two or morepredetermined origami-like folding results formed by conformations thatthe e-paper 102 may assume such as for example a sequence involving thepartially folded conformation of the region 604 a and the region 604 bof the exemplary implementation 602 of the e-paper 102 having the angleof bend 624 and the partially folded conformation having the angle ofbend 624 a).

FIG. 38

FIG. 38 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 38 illustrates exampleimplementations where the operation O11 includes the operation O1115,which includes one or more additional operations including, for example,operations O11151, and/or O11152, which may be executed generally by, insome instances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O1115 mayinclude the operation of O11151 for obtaining one or more orders offolding sequences of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more of the folding sequence modules336 of FIG. 11 directing the acquisition of one or more orders offolding sequences (e.g. one or more of the sensors 614 (see FIG. 26) asexemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information over one or more periods of time to be compared bythe recognition engine 156 (see FIG. 5) with sensor information obtainedpreviously over one or more periods of time with respect to one or moreorders of folding sequences that the e-paper 102 may assume such as afolding sequence order involving the first change 630 a and the secondchange 630 b of the exemplary sequence 630 of conformations representinga folding sequence order of the region 604 a and the region 604 b of theexemplary implementation 602 of the e-paper 102 occurring in a timeordered sequence as illustrated in FIG. 26).

For instance, in some implementations, the exemplary operation O1115 mayinclude the operation of O11152 for obtaining origami-like resultantshape information associated with one or more sequences of two or moreorigami-like shapes resultant from one or more folding sequences of oneor more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more origami-like shape modules 338 of FIG. 11 directing theacquisition of origami-like resultant shape information associated withone or more sequences of two or more resultant origami-like shapes suchas obtaining one or more sequences of two or more origami-like shapesresultant from one or more folding sequences of one or more portions ofone or more regions of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. one or more of the sensors614 (see FIG. 23) as exemplary implementations of the sensor 144 (seeFIG. 4) may obtain sensor information to be compared by the recognitionengine 156 (see FIG. 5) with sensor information obtained previously withrespect to one or more sequences of two or more resultant origami-likeshapes formed by conformations that the e-paper 102 may assume. Theconformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more sequences or two or more associations between thesensor information previously obtained with respect to one or moreresultant origami-like shapes formed by conformations that the e-paper102 may assume such as for example a sequence involving the partiallyfolded conformation of the region 604 a and the region 604 b of theexemplary implementation 602 of the e-paper 102 having the angle of bend624 and the partially folded conformation having the angle of bend 624a).

FIG. 39

FIG. 39 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 39 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1116, O1117, O1118,O1119, and/or O1120, which may be executed generally by, in someinstances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1116 for obtaining angle of bend informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more bend angle modules 342 of FIG. 11 directing the acquisitionof angle of bend information such as obtaining angle of bend information(e.g. one or more of the sensors 614 (see FIG. 23) as exemplaryimplementations of the sensor 144 (see FIG. 4) of the sensor unit 114obtaining sensing data in combination with the recognition engine 156(see FIG. 5) through the recognition logic 162 matching angle of bendinformation contained in the recognition memory 164 with the sensingdata) associated with one or more sequences of two or more conformations(e.g. the partially folded conformation of the exemplary implementation602 of the e-paper 102 having an angle of bend 624 and the partiallyfolded conformation having the angle of bend 624 a shown in FIG. 23) ofone or more portions of one or more regions (e.g. the region 604 a andthe region 604 b) of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. the exemplary implementation602 of the e-paper 102 of FIG. 23).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1117 for obtaining bend number informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more bend number modules 344 of FIG. 11 directing the acquisitionof bend number information such as obtaining bend number information(e.g. one or more of the sensors 614 (see FIG. 26) as exemplaryimplementations of the sensor 144 (see FIG. 4) may obtain sensorinformation over one or more periods of time to be compared by therecognition engine 156 (see FIG. 5) with sensor information obtainedpreviously over one or more periods of time with respect to one or morepredetermined bend conformations that the e-paper 102 may assume)associated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the electronic paperassembly or other bendable display containing electronic device (e.g.the conformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between the sensor informationpreviously obtained with respect to the one or more predetermined bendconformations that the e-paper 102 may assume such as the exemplarysequence 630 of conformations having a bend number of the region 604 aand the region 604 b of the partially folded conformation of theexemplary implementation 602 of the e-paper 102 having the angle of bend624 and the partially folded conformation having the angle of bend 624 aas illustrated in FIG. 26).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1118 for obtaining force informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation force modules 346 of FIG. 11 directing theacquisition of force information such as obtaining force information(e.g. one or more of the sensors 614 (see FIG. 23) as exemplaryimplementations of the force sensor 144 e (see FIG. 4) of the sensor 144may obtain force information) associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenforce information to be obtained by the sensors 614 and one or moreconformations such as a sequence involving the partially foldedconformation of the region 604 a and the region 604 b of the exemplaryimplementation 602 of the e-paper 102 having the angle of bend 624 andthe partially folded conformation having the angle of bend 624 a).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1119 for obtaining substantially transientinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more conformation transient modules348 of FIG. 11 directing the acquisition of substantially transientinformation such as obtaining substantially transient information (e.g.one or more of the sensors 614 (see FIG. 26) as exemplaryimplementations of the sensor 144 (see FIG. 4) may obtain sensorinformation over one or more periods of time to be compared by therecognition engine 156 (see FIG. 5) with sensor information obtainedpreviously over one or more periods of time with respect to one or morepredetermined periods of time that are deemed “transient” such as withrespect to an absolute measure of time such as a certain number ofseconds or minutes or such as respect to a relative measure of time suchas how long it would typically take to read a portion of a display,etc.) associated with one or more sequences of two or more conformationsof one or more portions of one or more regions of the electronic paperassembly or other bendable display containing electronic device (e.g.the conformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between the sensor informationpreviously obtained with respect to the one or more predeterminedperiods of time that are deemed “transient” for one or moreconformations that the e-paper 102 may assume such as a sequenceinvolving the partially folded conformation of the region 604 a and theregion 604 b of the exemplary implementation 602 of the e-paper 102having the angle of bend 624 and the partially folded conformationhaving the angle of bend 624 a as illustrated in FIG. 26).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1120 for obtaining substantially persistentinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more conformation persistent modules350 of FIG. 11 directing the acquisition of substantially persistentinformation such as obtaining substantially persistent information (e.g.one or more of the sensors 614 (see FIG. 26) as exemplaryimplementations of the sensor 144 (see FIG. 4) may obtain sensorinformation over one or more periods of time to be compared by therecognition engine 156 (see FIG. 5) with sensor information obtainedpreviously over one or more periods of time with respect to one or morepredetermined periods of time that are deemed “persistent” such as withrespect to an absolute measure of time such as a certain number ofminutes, hours, or days, etc or such as respect to a relative measure oftime such as how long it would typically take to read a portion of abook, etc.) associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to the one ormore predetermined periods of time that are deemed “persistent” for oneor more conformations that the e-paper 102 may assume such as a sequenceinvolving the partially folded conformation of the region 604 a and theregion 604 b of the exemplary implementation 602 of the e-paper 102having the angle of bend 624 and the partially folded conformationhaving the angle of bend 624 a as illustrated in FIG. 26).

FIG. 40

FIG. 40 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 40 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1121, O1122, O1124,and/or O1125, which may be executed generally by, in some instances, thesensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1121 for obtaining gestured informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more gesture modules 356 of FIG. 11 directing the acquisition ofgestured information such as obtaining gestured information (e.g. one ormore of the sensors 614 (see FIG. 26) as exemplary implementations ofthe sensor 144 (see FIG. 4) may obtain sensor information at one pointin time or in combination with over one or more periods of time to becompared by the recognition engine 156 (see FIG. 5) with sensorinformation obtained previously at one point in time or in combinationwith over one or more periods of time with respect to one or morevarious types of sensor data such as obtained by the strain sensor 144a, the stress sensor 144 b, the optical fiber sensor 144 c, the surfacesensor 144 d, the force sensor 144 e, and/or the gyroscopic sensor 144 fof the sensor 144 (see FIG. 4)) associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe combinations of sensor information previously obtained for one ormore conformations that the e-paper 102 may assume such as a sequenceinvolving the exemplary partially folded conformation of the exemplaryimplementation 602 of the e-paper 102 of the region 604 a and the region604 b having the angle of bend 624 and the exemplary folded conformationhaving the angle of bend 624 a as illustrated in FIG. 26).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1122 for obtaining connection sequenceinformation of one or more sequences of two or more connections betweentwo or more of the portions of the one or more regions of the bendabledisplay containing electronic device associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device. Anexemplary implementation may include one or more conformation connectionmodules 357 of FIG. 11 directing the acquisition of connectioninformation such as obtaining connection information of one or moresequences of two or more connections between two or more of the portions(e.g. one or more of the sensors 614 (see FIG. 27) may be activated withone or more of a plurality of the exemplary implementations 602 of thee-paper 102 are assembled together in particular sorts of couplingconformations such as the coupling conformation 632 of FIG. 27) of theone or more regions of the electronic paper associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the electronic paper assembly or other bendable displaycontaining electronic device (such as a sequence involving connectioninformation between the exemplary coupling conformation 632 of theplurality of the regions 604 a and the plurality of the regions 604 b ofthe exemplary implementation 602 of the e-paper 102 and the exemplarycoupling conformation 632 a shown in FIG. 27).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1124 for obtaining draping informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation draping modules 358 of FIG. 11 directing theacquisition of draping information such as obtaining draping information(e.g. one or more of the sensors 614 (see FIG. 28) as exemplaryimplementations of the sensor 144 (see FIG. 4) may obtain sensorinformation to be compared by the recognition engine 156 (see FIG. 5)with sensor information obtained previously with respect to one or morepredetermined draping conformations that the e-paper 102 may assume, forexample, by being draped over the object 634 of FIG. 28 or over theobject 634 a of the FIG. 28 a) associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to the one ormore sequences of two or more draping conformations that the e-paper 102may assume such as for example a sequence involving the exemplarydraping conformation 633 over the object 634 (see FIG. 28) and theexemplary draping conformation 633 a over the object 634 a (see FIG. 28a) of the region 604 a and the region 604 b of the exemplaryimplementation 602 of the e-paper 102).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1125 for obtaining wrapping informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more wrapping modules 359 of FIG. 11 directing the acquisition ofwrapping information such as obtaining wrapping information (e.g. one ormore of the sensors 614 (see FIG. 29) as exemplary implementations ofthe sensor 144 (see FIG. 4) may obtain sensor information to be comparedby the recognition engine 156 (see FIG. 5) with sensor informationobtained previously with respect to one or more predetermined wrappingconformations that the e-paper 102 may assume, for example, by beingwrapped around the object 636) associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 one or more associations betweenthe sensor information previously obtained with respect to one or morewrapped conformations that the e-paper 102 may assume such as forexample a sequence involving the exemplary wrapped conformation 635around the exemplary object 636 (see FIG. 29) and the exemplary wrappedconformation 635 a around the exemplary object 636 a (see FIG. 29 a) ofthe region 604 a and the region 604 b of the exemplary implementation602 of the e-paper 102).

FIG. 41

FIG. 41 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 41 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operations O1126, O1127, O1128,O1129, and/or O1130, which may be executed generally by, in someinstances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1126 for obtaining information derived throughsensing one or more sequences of two or more curvilinear patterns offorce imparted upon one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more conformation curvilinear modules360 of FIG. 11 directing the acquisition of curvilinear information suchas obtaining information derived through sensing one or more sequencesof two or more curvilinear patterns of force imparted (e.g. one or moreof the sensors 614 (see FIG. 30) as exemplary implementations of theforce sensor 144 e (see FIG. 4) of the sensor 144 may obtain forceinformation such as that imparted by the exemplary instrument 638following a path 640) upon one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device (e.g. the conformation unit 122 (see FIG. 8) maymaintain in the conformation memory 200 portions of curvilinear patternsof force to be obtained by the sensors 614 and may also maintain in thecontent storage 132 (see FIG. 3) information associated with one or moresequences of two or more curvilinear patterns of force along the region604 a and the region 604 b of the exemplary implementation 602 of thee-paper 102 for instance, a sequence involving the exemplary path 640 aand the exemplary path 640 b).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1127 for obtaining rolling informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation rolling modules 361 of FIG. 11 directing theacquisition of rolling information such as obtaining rolling information(e.g. one or more of the sensors 614 (see FIG. 31) as exemplaryimplementations of the sensor 144 (see FIG. 4) may obtain sensorinformation to be compared by the recognition engine 156 (see FIG. 5)with sensor information obtained previously with respect to one or morepredetermined rolling conformations that the e-paper 102 may assume, forexample, the exemplary rolled conformation 643 (see FIG. 31) associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the electronic paper assembly orother bendable display containing electronic device (e.g. theconformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between the sensor informationpreviously obtained with respect to the one or more rolled conformationsthat the e-paper 102 may assume such as for example a sequence involvingthe rolled conformation 643 and the rolled conformation 643 a of theregion 604 a and the region 604 b of the exemplary implementation 602 ofthe e-paper 102 shown in FIG. 31).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1128 for obtaining hinge status informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more conformation hinge modules 362 of FIG. 11 directing theacquisition of hinge status information such as obtaining hinge statusinformation (e.g. one or more of the sensors 614 (see FIG. 32) asexemplary implementations of the sensor 144 (see FIG. 4) of the sensorunit 114 obtaining sensing data in combination with the recognitionengine 156 (see FIG. 5) through the recognition logic 162 matching hingestatus information contained in the recognition memory 164 with thesensing data) associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. a sequence involving the partially foldedconformation 644 of the exemplary implementation 602 of the e-paper 102of the region 604 a and the region 604 b having a hinge status 645 andthe partially folded conformation 644 a having hinge status 645 a shownin FIG. 32).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1129 for filtering information based uponradius of bend associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more bend radius modules 363 of FIG.11 directing the filtering of information such as filtering informationbased on radius of bend (e.g. the recognition engine 156 (see FIG. 5)may use sensor information from one or more of the sensors 614 (see FIG.33) in conjunction with predetermined configuration data stored in theconformation memory 200 (see FIG. 8) to recognize a predetermined radiusof bend conformation, which may then be used by the content control 130(see FIG. 3) of the content unit 112 to filter information contained inthe content memory 140) associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. a sequence involving the radius of bend 646 andthe radius of bend 646 a of the exemplary implementation 602 of thee-paper 102 including the region 604 a and the region 604 b asillustrated in FIG. 33).

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1130 for obtaining folded to unfolded ratioinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device. An exemplaryimplementation may include one or more fold ratio modules 364 of FIG. 11directing the acquisition of folded to unfolded ratio information suchas obtaining folded to unfolded ratio information (e.g. one or more ofthe sensors 614 (see FIG. 20) as exemplary implementations of the sensor144 (see FIG. 4) may obtain sensor information to be compared by therecognition engine 156 (see FIG. 5) with sensor information obtainedpreviously with respect to one or more predetermined folded and unfoldedconformations that the e-paper 102 may assume along the borders 606and/or elsewhere, such as the various bends and folds shown with theconformations of FIGS. 23, 24, 25, 26, 28, 29, 31, 32, and 33. Theconformation processor 196 (see FIG. 8) of the conformation unit 122 maydetermine which of the borders 606 and/or elsewhere in the regions 604are folded and/or bent versus which are unfolded and/or unbent therebyproducing a folded to unfolded ratio) associated with one or more one ormore sequences in one or more conformations of one or more portions ofone or more regions of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. the conformation unit 122(see FIG. 8) may maintain in the conformation memory 200 one or moreassociations between folded to unfolded ratios and various conformationsthat the e-paper 102 may assume thereby being capable of indicatingexistence of one or more sequences involving such conformations, such asfor example a sequence involving the partially folded conformation ofthe region 604 a and the region 604 b of the exemplary implementation602 of the e-paper 102 having the angle of bend 624 and the partiallyfolded conformation having the angle of bend 624 a shown in FIG. 23).

FIG. 42

FIG. 42 illustrates various implementations of the exemplary operationO11 of FIG. 34. In particular, FIG. 42 illustrates exampleimplementations where the operation O11 includes one or more additionaloperations including, for example, operation O1131, which may beexecuted generally by, in some instances, the sensor unit 114 of FIG. 4.

For instance, in some implementations, the exemplary operation O11 mayinclude the operation of O1131 for obtaining bend location informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device. An exemplary implementation may includeone or more bend location modules 366 of FIG. 12 directing theacquisition of bend location information such as obtaining bend locationinformation (e.g. one or more of the sensors 614 (see FIG. 20) asexemplary implementations of the sensor 144 (see FIG. 4) may obtainsensor information to be compared by the recognition engine 156 (seeFIG. 5) with sensor information obtained previously with respect tolocations on the e-paper 102 that bends may assume along the borders 606and/or elsewhere, such as the various bends and folds shown with theconformations of FIGS. 23, 24, 25, 26, 28, 29, 31, 32, and 33. Theconformation processor 196 (see FIG. 8) of the conformation unit 122 maydetermine which of the borders 606 and/or elsewhere in the regions 604are folded and/or bent thereby producing bend location information)associated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the electronic paperassembly or other bendable display containing electronic device (e.g.the conformation unit 122 (see FIG. 8) may maintain in the conformationmemory 200 one or more associations between bend locations and variousconformations that the e-paper 102 may assume thereby being capable ofindicating existence of one or more sequences involving between suchconformations, such as for example a sequence involving the partiallyfolded conformation of the region 604 a and the region 604 b of theexemplary implementation 602 of the e-paper 102 having the angle of bend624 and the partially folded conformation having the angle of bend 624 ashown in FIG. 23).

FIG. 43

FIG. 43 illustrates various implementations of the exemplary operationO12 of FIG. 35. In particular, FIG. 42 illustrates exampleimplementations where the operation O12 may include one or moreadditional operations including, for example, operation O12, which mayfurther operations O1200, O1201, O1202, O1203, O1204, and/or O1205,which may be executed generally by, in some instances, the display unit114 of FIG. 9.

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1200 for displaying the second information ashaving one or more classifications. An exemplary implementation mayinclude one or more classification display modules 367 a of FIG. 12directing the display of the second information as having one or moreclassifications (e.g. displaying information 622 having a “public”classification from the display surface 612 (see FIG. 21) on the surfaceportion 608 a that has the display surface 612 (see FIG. 23) andinformation 620 having a “private” classification (see FIG. 23) on theinternal portion 608 b (see FIG. 21).

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1201 for displaying public content on one ormore portions of a surface display portion viewable from a displaysurface and to block an internal display portion from displaying privatecontent that would otherwise be viewed from the display surface frombeing viewed from the display surface. An exemplary implementation mayinclude one or more private content blocking modules 367 of FIG. 12directing the acquisition of displaying public content to block privatecontent such as displaying public content (e.g. displaying information622 having a “public” classification from the display surface 612 (seeFIG. 21)) on one or more portions of a surface display portion viewablefrom a display surface (e.g. the surface portion 608 a that has thedisplay surface 612 (see FIG. 23)) to block an internal display portionfrom displaying private content that would otherwise be viewed from thedisplay surface from being viewed from the display surface (e.g.information 620 having a “private” classification (see FIG. 23) e.g. theinternal portion 608 b (see FIG. 21) in some implementations may beunder independent control such that the internal portion may displayinformation 620 having a “private” classification for the displaysurface 612 but for the display of information 622 having a “public”classification from the display surface 612 consequently blocking thedisplay by the internal portion 608 b of the information 620 having a“private” classification from being viewed from the display surface612).

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1202 for displaying public content on one ormore portions of the bendable display containing electronic. Anexemplary implementation may include one or more public content modules368 of FIG. 12 directing display of public content such as displayingpublic content (e.g. information 622 having a classification of “public”(see FIG. 23) on one or more portions (e.g. portions of the information622 having a classification of “public” may be displayed from theinternal portion 608 b in combination with other portions of theinformation 622 being displayed from the surface portion 608 c so thatthe information 622 having a classification of “public” may be displayedfrom the display surface 612 (see FIG. 23)).

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1203 for displaying private content on one ormore portions of the bendable display containing electronic device. Anexemplary implementation may include one or more private content modules369 of FIG. 12 directing display of private content such as displayingprivate content (e.g. information 620 having a classification of“private” (see FIG. 23) on one or more portions (e.g. portions of theinformation 620 having a classification of “private” may be displayedfrom the internal portion 608 b in combination with other portions ofthe information 620 being displayed from the surface portion 608 a sothat the information 620 having a classification of “private” may bedisplayed from the display surface 610 (see FIG. 23)).

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1204 for displaying other than private contenton one or more portions of the bendable display containing electronicdevice. An exemplary implementation may include one or more conformationnon-private content modules 370 of FIG. 12 directing display of otherthan private content such as displaying other than private content (e.g.information 622 having a classification of “public” (“public” is a formof information classification that is other than “private”) (see FIG.23)) on one or more portions (e.g. portions of the information 622having a classification of “public” (“public” is a form of informationclassification that is other than “private”) may be displayed from theinternal portion 608 b in combination with other portions of theinformation 622 being displayed from the surface portion 608 c so thatthe information 622 having a classification of “public” (“public” is aform of information classification that is other than “private”) may bedisplayed from the display surface 612 (see FIG. 23).

For instance, in some implementations, the exemplary operation O12 mayinclude the operation of O1205 for displaying other than public contenton one or more portions of the bendable display containing electronicdevice. An exemplary implementation may include one or more non-publiccontent modules 371 of FIG. 12 directing display of other than publiccontent such as displaying other than public content on one or moreportions (e.g. information 620 having a classification of “private”(“private” is a form of information classification that is other than“public”) (see FIG. 23)) on one or more portions (e.g. portions of theinformation 622 having a classification of “private” (“private” is aform of information classification that is other than “public”) may bedisplayed from the internal portion 608 b in combination with otherportions of the information 622 being displayed from the surface portion608 a so that the information 622 having a classification of “private”(“private is a form of information classification that is other than“public”) may be displayed from the display surface 610 (see FIG. 23).

FIG. 44

FIG. 44 illustrates an example implementation of the exemplary operationO12 of FIG. 34 where the operation O12 includes, for example, operationO12106, which may be executed generally by, in some instances, thedisplay unit 114 of FIG. 9. For instance, in some implementations, theexemplary operation O12 may include the operation of O1206 that mayinclude the operation O12061 for comparing stored data with the firstinformation associated with one or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device and the operation 12062 for displaying on one or moreportions of the bendable display containing electronic device inresponse to the comparing stored data with the first informationassociated with one or more conformations of one or more portions of oneor more regions of the bendable display containing electronic device.

An exemplary implementation of the operation O12061 may include one ormore conformation comparison modules 372 of FIG. 12 directing comparingof stored data such as comparing stored data with the first informationassociated with one or more conformations of one or more portions of oneor more regions of the bendable display containing electronic device(e.g. one or more of the sensors 614 (see FIG. 23) as exemplaryimplementations of the sensor 144 (see FIG. 4) may send sensinginformation (such as stress information, strain information, forceinformation, optical fiber information, surface contact information,gyroscopic information, etc) regarding the partially folded conformation(see FIG. 23) of the exemplary implementation 602 of the e-paper 102through the sensor interface 146 to the recognition unit 116 (see FIG.5) through the recognition interface 158 whereby the recognition engine156 (see FIG. 5) compares the sensing information with conformationinformation stored in the conformation memory 200 (see FIG. 8) asaccessed by the recognition engine (see FIG. 5) through the recognitioninterface and the conformation interface 194 (see FIG. 8)).

An exemplary implementation of the operation O12062 may include one ormore comparison display modules 373 of FIG. 12 directing display on oneor more portions such as displaying on one or more portions (e.g. thedisplay unit 124 (see FIG. 9) may direct display hardware 204 throughthe display control 202 to display on the surface portion 608 a and thesurface portion 608 c (see FIG. 21)) in response to the comparing storeddata with the first information associated with one or moreconformations of one or more portions of one or more regions of theelectronic paper assembly or other bendable display containingelectronic device (e.g. after the recognition engine 156 (see FIG. 5)compares sensing information from one or more of the sensors 614 withconformation information stored in the conformation memory 200 (see FIG.8), the recognition engine may direct to the display control 202 throughthe conformation interface 194 and the display interface 206 the abovedisplay on the surface portion 608 a and the surface portion 608 c).

FIG. 45

FIG. 45 illustrates an example implementation of the exemplary operationO12 of FIG. 34 where the operation O12 includes, for example, operationO1207, which may be executed generally by, in some instances, thedisplay unit 114 of FIG. 9. For instance, in some implementations, theexemplary operation O12 may include the operation of O1207 that mayinclude the operation O12071 for selecting one or more of theclassifications of the second information having one or moreclassifications and the operation 12072 for displaying on one or moreportions of the bendable display containing electronic device inresponse to the selected one or more of the classifications of thesecond information having one or more classifications.

An exemplary implementation of the operation 12071 may include one ormore classification selection modules 374 of FIG. 12 directing selectionsuch as selecting one or more of the classifications of the secondinformation having one or more classifications (e.g. one or more of thesensors 614 (see FIG. 23) as exemplary implementations of the sensor 144(see FIG. 4) may send sensing information (such as stress information,strain information, force information, optical fiber information,surface contact information, gyroscopic information, etc) regarding aconformation (see FIG. 24) of the exemplary implementation 602 of thee-paper 102 through the sensor interface 146 to the recognition unit 116(see FIG. 5) through the recognition interface 158 whereby therecognition engine 156 (see FIG. 5) compares the sensing informationwith conformation information stored in the conformation memory 200 (seeFIG. 8) as accessed by the recognition engine (see FIG. 5) through therecognition interface and the conformation interface 194 (see FIG. 8).Based upon the comparison, the recognition engine can send to thecontent unit 112 through the recognition interface 158 and the contentinterface 134 one or more indications of what one or moreclassifications of information should be provided to the display unit124 (see FIG. 9) for display).

An exemplary implementation of the operation 12072 may include one ormore selection display modules 375 directing display such as displayingon one or more portions in response to the selected one or more of theclassifications of the second information having one or moreclassifications (e.g. the display control 202 (see FIG. 9) of thedisplay unit 124 may direct display hardware 204 to display on thedisplay surface 610 through the surface portion 608 a (see FIG. 21)information 620 having a “private” classification (see FIG. 23) and todisplay on the display surface 612 through the surface portion 608 c(see FIG. 21) information 622 having a “public” classification (see FIG.23) in response to selecting based upon the comparisons of therecognition engine 156 (see FIG. 5).

FIG. 46

FIG. 46 illustrates an example implementation of the exemplary operationO12 of FIG. 34 where the operation O12 includes, for example, operationO1208, which may be executed generally by, in some instances, thedisplay unit 114 of FIG. 9. For instance, in some implementations, theexemplary operation O12 may include the operation of O1208 that mayinclude the operation O121081 for selecting other than one or more ofthe classifications of the second information having one or moreclassifications and the operation O12082 for displaying on one or moreportions of the bendable display containing electronic device inresponse to the selected other than one or more of the classificationsof the second information having one or more classifications.

An exemplary implementation of the operation 12081 may include one ormore non-classification selection modules 376 of FIG. 12 directingselection such as selecting other than one or more of theclassifications of the second information having one or moreclassifications (e.g. the selection 626 between TV, PDA, cell phone,notebook PC, and eBook functionality (see FIG. 24) may be obtained sothat other than one or more of the classifications of the secondinformation is selected as a consequence by having the recognitionengine 156 (see FIG. 5) use sensor information from one or more of thesensors 614 (see FIG. 24) in conjunction with predeterminedconfiguration data stored in the conformation memory 200 (see FIG. 8) torecognize a predetermined conformation, which can then be used by theapplication control 166 (see FIG. 6) of the application unit 118 toselect a functionality per data stored in the application memory 176)associated with one or more conformations of one or more portions of oneor more regions of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. the conformation of theexemplary implementation 602 of the e-paper 102 including the region 604a and the region 604 b as illustrated in FIG. 24).

An exemplary implementation of the operation 12082 may include one ormore other display modules 377 of FIG. 12 directing display such asdisplaying on one or more portions in response to the selected otherthan one or more of the classifications of the second information havingone or more classifications (e.g. the display control 202 (see FIG. 9)of the display unit 124 may direct display hardware 204 to display onthe display surface 610 through the surface portion 608 a (see FIG. 21)some information regarding the selection 626 in response to selectingbased upon the comparisons of the recognition engine 156 (see FIG. 5) inwhich in some implementations the displayed information is unrelated tothe “public” or “private” classification illustrated by FIG. 23).

Those skilled in the art will appreciate that the foregoing specificexemplary processes and/or devices and/or technologies arerepresentative of more general processes and/or devices and/ortechnologies taught elsewhere herein, such as in the claims filedherewith and/or elsewhere in the present application.

A partial view of a system S100 is shown in FIG. 47 that includes acomputer program S104 for executing a computer process on a computingdevice. An implementation of the system S100 is provided using asignal-bearing medium S102 bearing one or more instructions forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device. An exemplaryimplementation may include obtaining information (e.g. obtaining may beperformed through one or more of the sensors 614 (see FIG. 23) asexemplary implementations of the sensor 144 (see FIG. 4) regarding theangle of bend 624 and the angle of bend 624 a (see FIG. 23) of theexemplary implementation 602 of the e-paper 102) associated with one ormore sequences of two or more conformations (e.g. the one or more of thesensors 614 as exemplary implementations of the sensor 144 may relay theinformation about a sequence in which the angle of bend 624 and theangle of bend 624 a occurs through the sensor interface 146 (see FIG. 4)to the recognition unit 166 (see FIG. 5) through the recognitioninterface 158 where the recognition engine 156 may determine that theangle of bend 624 and the angle of bend 624 a is associated with one ormore conformations as retrieved from the conformation memory 200 (seeFIG. 8) through the conformation interface 194) of one or more portionsof one or more regions (e.g. the region 604 a and the region 604 b (seeFIGS. 22 and 23) are angularly oriented with one another along theborder 606 a) of the electronic paper assembly or other bendable displaycontaining electronic device (e.g. of the implementation 602 (see FIGS.22 and 23) of the e-paper 102).

The implementation of the system S100 is also provided using asignal-bearing medium S102 bearing one or more instructions forcontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device. Anexemplary implementation may include coordinating the one or moresequences of two or more conformations of one or more portions of theone or more regions of the electronic paper assembly or other bendabledisplay containing electronic device (e.g. one or more of thecoordination modules 305 may receive from the recognition unit 166 (seeFIG. 5) through the recognition interface 158 sequence information abouta conformation sequence for one or more portions of one or more regionsof the electronic paper assembly or other bendable display containingelectronic device as determined by the recognition engine 156) with oneor more commands (e.g. the one or more coordination modules 305 mayrelay the sequence information to the application unit 118 through theapplication interface 170 upon which the application control 166instructs the application processor to execute certain applicationcommands through the application logic 174 contained in the applicationmemory 176 in accordance with correlation information contained in theapplication storage 168 associating conformation sequences withapplication commands.

The one or more instructions may be, for example, computer executableand/or logic-implemented instructions. In some implementations, thesignal-bearing medium S102 may include a computer-readable medium S106.In some implementations, the signal-bearing medium S102 may include arecordable medium S108. In some implementations, the signal-bearingmedium S102 may include a communication medium S110.

Those having ordinary skill in the art will recognize that the state ofthe art has progressed to the point where there is little distinctionleft between hardware and software implementations of aspects ofsystems; the use of hardware or software is generally (but not always,in that in certain contexts the choice between hardware and software maybecome significant) a design choice representing cost vs. efficiencytradeoffs. Those having skill in the art will appreciate that there arevarious vehicles by which processes and/or systems and/or othertechnologies described herein may be effected (e.g., hardware, software,and/or firmware), and that the preferred vehicle will vary with thecontext in which the processes and/or systems and/or other technologiesare deployed. For example, if an implementer determines that speed andaccuracy are paramount, the implementer may opt for a mainly hardwareand/or firmware vehicle; alternatively, if flexibility is paramount, theimplementer may opt for a mainly software implementation; or, yet againalternatively, the implementer may opt for some combination of hardware,software, and/or firmware. Hence, there are several possible vehicles bywhich the processes and/or devices and/or other technologies describedherein may be effected, none of which is inherently superior to theother in that any vehicle to be utilized is a choice dependent upon thecontext in which the vehicle will be deployed and the specific concerns(e.g., speed, flexibility, or predictability) of the implementer, any ofwhich may vary. Those skilled in the art will recognize that opticalaspects of implementations will typically employ optically-orientedhardware, software, and or firmware.

The foregoing detailed description has set forth various embodiments ofthe devices and/or processes via the use of block diagrams, flowcharts,and/or examples. Insofar as such block diagrams, flowcharts, and/orexamples contain one or more functions and/or operations, it will beunderstood by those within the art that each function and/or operationwithin such block diagrams, flowcharts, or examples may be implemented,individually and/or collectively, by a wide range of hardware, software,firmware, or virtually any combination thereof. In one embodiment,several portions of the subject matter described herein may beimplemented via Application Specific Integrated Circuits (ASICs), FieldProgrammable Gate Arrays (FPGAs), digital signal processors (DSPs), orother integrated formats. However, those skilled in the art willrecognize that some aspects of the embodiments disclosed herein, inwhole or in part, may be equivalently implemented in integratedcircuits, as one or more computer programs running on one or morecomputers (e.g., as one or more programs running on one or more computersystems), as one or more programs running on one or more processors(e.g., as one or more programs running on one or more microprocessors),as firmware, or as virtually any combination thereof, and that designingthe circuitry and/or writing the code for the software and or firmwarewould be well within the skill of one of skill in the art in light ofthis disclosure. In addition, those skilled in the art will appreciatethat the mechanisms of the subject matter described herein are capableof being distributed as a program product in a variety of forms, andthat an illustrative embodiment of the subject matter described hereinapplies regardless of the particular type of signal bearing medium usedto actually carry out the distribution. Examples of a signal bearingmedium include, but are not limited to, the following: a recordable typemedium such as a floppy disk, a hard disk drive, a Compact Disc (CD), aDigital Video Disk (DVD), a digital tape, a computer memory, etc.; and atransmission type medium such as a digital and/or an analogcommunication medium (e.g., a fiber optic cable, a waveguide, a wiredcommunications link, a wireless communication link, etc.).

In a general sense, those skilled in the art will recognize that thevarious aspects described herein which may be implemented, individuallyand/or collectively, by a wide range of hardware, software, firmware, orany combination thereof may be viewed as being composed of various typesof “electrical circuitry.” Consequently, as used herein “electricalcircuitry” includes, but is not limited to, electrical circuitry havingat least one discrete electrical circuit, electrical circuitry having atleast one integrated circuit, electrical circuitry having at least oneapplication specific integrated circuit, electrical circuitry forming ageneral purpose computing device configured by a computer program (e.g.,a general purpose computer configured by a computer program which atleast partially carries out processes and/or devices described herein,or a microprocessor configured by a computer program which at leastpartially carries out processes and/or devices described herein),electrical circuitry forming a memory device (e.g., forms of randomaccess memory), and/or electrical circuitry forming a communicationsdevice (e.g., a modem, communications switch, or optical-electricalequipment). Those having skill in the art will recognize that thesubject matter described herein may be implemented in an analog ordigital fashion or some combination thereof.

Those of ordinary skill in the art will recognize that it is commonwithin the art to describe devices and/or processes in the fashion setforth herein, and thereafter use engineering practices to integrate suchdescribed devices and/or processes into data processing systems. Thatis, at least a portion of the devices and/or processes described hereinmay be integrated into a data processing system via a reasonable amountof experimentation. Those having skill in the art will recognize that atypical data processing system generally includes one or more of asystem unit housing, a video display device, a memory such as volatileand non-volatile memory, processors such as microprocessors and digitalsignal processors, computational entities such as operating systems,drivers, graphical user interfaces, and applications programs, one ormore interaction devices, such as a touch pad or screen, and/or controlsystems including feedback loops and control motors (e.g., feedback forsensing position and/or velocity; control motors for moving and/oradjusting components and/or quantities). A typical data processingsystem may be implemented utilizing any suitable commercially availablecomponents, such as those typically found in datacomputing/communication and/or network computing/communication systems.

The herein described subject matter sometimes illustrates differentcomponents contained within, or connected with, different othercomponents. It is to be understood that such depicted architectures aremerely exemplary, and that in fact many other architectures may beimplemented which achieve the same functionality. In a conceptual sense,any arrangement of components to achieve the same functionality iseffectively “associated” such that the desired functionality isachieved. Hence, any two components herein combined to achieve aparticular functionality may be seen as “associated with” each othersuch that the desired functionality is achieved, irrespective ofarchitectures or intermedial components. Likewise, any two components soassociated may also be viewed as being “operably connected”, or“operably coupled”, to each other to achieve the desired functionality,and any two components capable of being so associated may also be viewedas being “operably couplable”, to each other to achieve the desiredfunctionality. Specific examples of operably couplable include but arenot limited to physically mateable and/or physically interactingcomponents and/or wirelessly interactable and/or wirelessly interactingcomponents and/or logically interacting and/or logically interactablecomponents.

While particular aspects of the present subject matter described hereinhave been shown and described, it will be apparent to those skilled inthe art that, based upon the teachings herein, changes and modificationsmay be made without departing from the subject matter described hereinand its broader aspects and, therefore, the appended claims are toencompass within their scope all such changes and modifications as arewithin the true spirit and scope of the subject matter described herein.Furthermore, it is to be understood that the invention is defined by theappended claims.

It will be understood by those within the art that, in general, termsused herein, and especially in the appended claims (e.g., bodies of theappended claims) are generally intended as “open” terms (e.g., the term“including” should be interpreted as “including but not limited to,” theterm “having” should be interpreted as “having at least,” the term“includes” should be interpreted as “includes but is not limited to,”etc.). It will be further understood by those within the art that if aspecific number of an introduced claim recitation is intended, such anintent will be explicitly recited in the claim, and in the absence ofsuch recitation no such intent is present. For example, as an aid tounderstanding, the following appended claims may contain usage of theintroductory phrases “at least one” and “one or more” to introduce claimrecitations. However, the use of such phrases should not be construed toimply that the introduction of a claim recitation by the indefinitearticles “a” or “an” limits any particular claim containing suchintroduced claim recitation to inventions containing only one suchrecitation, even when the same claim includes the introductory phrases“one or more” or “at least one” and indefinite articles such as “a” or“an” (e.g., “a” and/or “an” should typically be interpreted to mean “atleast one” or “one or more”); the same holds true for the use ofdefinite articles used to introduce claim recitations.

In addition, even if a specific number of an introduced claim recitationis explicitly recited, those skilled in the art will recognize that suchrecitation should typically be interpreted to mean at least the recitednumber (e.g., the bare recitation of “two recitations,” without othermodifiers, typically means at least two recitations, or two or morerecitations). Furthermore, in those instances where a conventionanalogous to “at least one of A, B, and C, etc.” is used, in generalsuch a construction is intended in the sense one having skill in the artwould understand the convention (e.g., “a system having at least one ofA, B, and C” would include but not be limited to systems that have Aalone, B alone, C alone, A and B together, A and C together, B and Ctogether, and/or A, B, and C together, etc.).

In those instances where a convention analogous to “at least one of A,B, or C, etc.” is used, in general such a construction is intended inthe sense one having skill in the art would understand the convention(e.g., “a system having at least one of A, B, or C” would include butnot be limited to systems that have A alone, B alone, C alone, A and Btogether, A and C together, B and C together, and/or A, B, and Ctogether, etc.). It will be further understood by those within the artthat virtually any disjunctive word and/or phrase presenting two or morealternative terms, whether in the description, claims, or drawings,should be understood to contemplate the possibilities of including oneof the terms, either of the terms, or both terms. For example, thephrase “A or B” will be understood to include the possibilities of “A”or “B” or “A and B.”

All of the above U.S. patents, U.S. patent application publications,U.S. patent applications, foreign patents, foreign patent applicationsand non-patent publications referred to in this specification and/orlisted in any Application Data Sheet, are incorporated herein byreference, to the extent not inconsistent herewith.

1. A method comprising: obtaining information associated with one ormore sequences of two or more conformations of one or more portions ofone or more regions of a bendable display containing electronic device;and controlling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device. 2.-41.(canceled)
 42. A system comprising: circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device; and circuitry for controlling display ofone or more portions of the bendable display containing electronicdevice regarding display of second information in response to theinformation associated with the one or more sequences of two or moreconformations of the one or more portions of the one or more regions ofthe bendable display containing electronic device.
 43. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for detecting one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device. 44.The system of claim 42, wherein the circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device comprises: circuitry for obtaining straininformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 45. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining stress information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device.
 46. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining calibration related information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device. 47.The system of claim 42, wherein the circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device comprises: circuitry for obtaining patterninformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 48. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining surface contact informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device.
 49. The system of claim 42, wherein thecircuitry for obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic devicecomprises: circuitry for obtaining sequence information associated withtwo or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device.
 50. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining geometrical information associated with one or more sequencesof two or more conformations of one or more portions of one or moreregions of the bendable display containing electronic device.
 51. Thesystem of claim 42, wherein the circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device comprises: circuitry for obtaininginformation related to predetermined indicia associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of the bendable display containing electronic device. 52.The system of claim 42, wherein the circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device comprises: circuitry for obtaining opticalfiber derived information associated with one or more sequences of twoor more conformations of one or more portions of one or more regions ofthe bendable display containing electronic device.
 53. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for obtaining information basedon one or more sequences of one or more associations between two or moreof the portions of the one or more regions of the bendable displaycontaining electronic device associated with the two or moreconformations of the one or more portions of the one or more regions ofthe bendable display containing electronic device.
 54. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for receiving signals fromembedded sensors.
 55. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining selection information associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the bendable display containing electronic device.
 56. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for obtaining origami-likefolding information associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 57. The system of claim56, wherein obtaining origami-like folding information associated withone or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device comprises: circuitry for obtaining one or more ordersof folding sequences of one or more portions of one or more regions ofthe bendable display containing electronic device.
 58. The system ofclaim 56, wherein obtaining origami-like folding information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device comprises: circuitry for obtaining origami-likeresultant shape information associated with one or more sequences of twoor more origami-like shapes resultant from one or more folding sequencesof one or more portions of one or more regions of the bendable displaycontaining electronic device.
 59. The system of claim 42, wherein thecircuitry for obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic devicecomprises: circuitry for obtaining angle of bend information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device.
 60. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining bend number information associated with one or more sequencesof two or more conformations of one or more portions of one or moreregions of the bendable display containing electronic device.
 61. Thesystem of claim 42, wherein the circuitry for obtaining informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of a bendable displaycontaining electronic device comprises: circuitry for obtaining forceinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 62. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining substantially transientinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 63. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining substantially persistentinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 64. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining gestured informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device.
 65. The system of claim 42, wherein thecircuitry for obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic devicecomprises: circuitry for obtaining connection sequence information ofone or more sequences of two or more connections between two or more ofthe portions of the one or more regions of the bendable displaycontaining electronic device associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the bendable display containing electronic device.
 66. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for obtaining draping informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device.
 67. The system of claim 42, wherein thecircuitry for obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic devicecomprises: circuitry for obtaining wrapping information associated withone or more sequences of two or more conformations of one or moreportions of one or more regions of the bendable display containingelectronic device.
 68. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining information derived through sensing one or more sequences oftwo or more curvilinear patterns of force imparted upon one or moreportions of one or more regions of the bendable display containingelectronic device.
 69. The system of claim 42, wherein the circuitry forobtaining information associated with one or more sequences of two ormore conformations of one or more portions of one or more regions of abendable display containing electronic device comprises: circuitry forobtaining rolling information associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof the bendable display containing electronic device.
 70. The system ofclaim 42, wherein the circuitry for obtaining information associatedwith one or more sequences of two or more conformations of one or moreportions of one or more regions of a bendable display containingelectronic device comprises: circuitry for obtaining hinge statusinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 71. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for filtering information based upon radiusof bend associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 72. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining folded to unfolded ratioinformation associated with one or more sequences of two or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 73. The system of claim42, wherein the circuitry for obtaining information associated with oneor more sequences of two or more conformations of one or more portionsof one or more regions of a bendable display containing electronicdevice comprises: circuitry for obtaining bend location informationassociated with one or more sequences of two or more conformations ofone or more portions of one or more regions of the bendable displaycontaining electronic device.
 74. The system of claim 42, wherein thecircuitry for controlling display of one or more portions of thebendable display containing electronic device regarding display ofsecond information in response to the information associated with theone or more sequences of two or more conformations of the one or moreportions of the one or more regions of the bendable display containingelectronic device comprises: circuitry for displaying the secondinformation as having one or more classifications.
 75. The system ofclaim 42, wherein the circuitry for controlling display of one or moreportions of the bendable display containing electronic device regardingdisplay of second information in response to the information associatedwith the one or more sequences of two or more conformations of the oneor more portions of the one or more regions of the bendable displaycontaining electronic device comprises: circuitry for displaying publiccontent on one or more portions of a surface display portion viewablefrom a display surface and to block an internal display portion fromdisplaying private content that would otherwise be viewed from thedisplay surface from being viewed from the display surface.
 76. Thesystem of claim 42, wherein the circuitry for controlling display of oneor more portions of the bendable display containing electronic deviceregarding display of second information in response to the informationassociated with the one or more sequences of two or more conformationsof the one or more portions of the one or more regions of the bendabledisplay containing electronic device comprises: circuitry for displayingpublic content on one or more portions of the bendable displaycontaining electronic.
 77. The system of claim 42, wherein the circuitryfor controlling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device comprises:circuitry for displaying private content on one or more portions of thebendable display containing electronic device.
 78. The system of claim42, wherein the circuitry for controlling display of one or moreportions of the bendable display containing electronic device regardingdisplay of second information in response to the information associatedwith the one or more sequences of two or more conformations of the oneor more portions of the one or more regions of the bendable displaycontaining electronic device comprises: circuitry for displaying otherthan private content on one or more portions of the bendable displaycontaining electronic device.
 79. The system of claim 42, wherein thecircuitry for controlling display of one or more portions of thebendable display containing electronic device regarding display ofsecond information in response to the information associated with theone or more sequences of two or more conformations of the one or moreportions of the one or more regions of the bendable display containingelectronic device comprises: circuitry for displaying other than publiccontent on one or more portions of the bendable display containingelectronic device.
 80. The system of claim 42, wherein the circuitry forcontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device comprises:circuitry for comparing stored data with the first informationassociated with one or more conformations of one or more portions of oneor more regions of the bendable display containing electronic device;and circuitry for displaying on one or more portions of the bendabledisplay containing electronic device in response to the comparing storeddata with the first information associated with one or moreconformations of one or more portions of one or more regions of thebendable display containing electronic device.
 81. The system of claim42, wherein the circuitry for controlling display of one or moreportions of the bendable display containing electronic device regardingdisplay of second information in response to the information associatedwith the one or more sequences of two or more conformations of the oneor more portions of the one or more regions of the bendable displaycontaining electronic device comprises: circuitry for selecting one ormore of the classifications of the second information having one or moreclassifications; and circuitry for displaying on one or more portions ofthe bendable display containing electronic device in response to theselected one or more of the classifications of the second informationhaving one or more classifications
 82. The system of claim 42, whereinthe circuitry for controlling display of one or more portions of thebendable display containing electronic device regarding display ofsecond information in response to the information associated with theone or more sequences of two or more conformations of the one or moreportions of the one or more regions of the bendable display containingelectronic device comprises: circuitry for selecting other than one ormore of the classifications of the second information having one or moreclassifications; and circuitry for displaying on one or more portions ofthe bendable display containing electronic device in response to theselected other than one or more of the classifications of the secondinformation having one or more classifications.
 83. A system comprising:means for obtaining information associated with one or more sequences oftwo or more conformations of one or more portions of one or more regionsof a bendable display containing electronic device; and means forcontrolling display of one or more portions of the bendable displaycontaining electronic device regarding display of second information inresponse to the information associated with the one or more sequences oftwo or more conformations of the one or more portions of the one or moreregions of the bendable display containing electronic device.
 84. Asystem comprising: a signal-bearing medium bearing: one or moreinstructions for obtaining information associated with one or moresequences of two or more conformations of one or more portions of one ormore regions of a bendable display containing electronic device; and oneor more instructions for controlling display of one or more portions ofthe bendable display containing electronic device regarding display ofsecond information in response to the information associated with theone or more sequences of two or more conformations of the one or moreportions of the one or more regions of the bendable display containingelectronic device.